PIC18LF45K22价格

参考价格:¥17.2298

型号:PIC18LF45K22-I/ML 品牌:MICROCHIP 备注:这里有PIC18LF45K22多少钱,2025年最近7天走势,今日出价,今日竞价,PIC18LF45K22批发/采购报价,PIC18LF45K22行情走势销售排行榜,PIC18LF45K22报价。
型号 功能描述 生产厂家 企业 LOGO 操作
PIC18LF45K22

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

PIC18LF45K22

Flash Memory Programming Specification

文件:545.77 Kbytes Page:42 Pages

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

High-Performance RISC CPU: • C Compiler Optimized Architecture: - Optional extended instruction set designed to optimize re-entrant code • Up to 1024 Bytes Data EEPROM • Up to 64 Kbytes Linear Program Memory Addressing • Up to 3896 Bytes Linear Data Memory Addressing • Up to 16 MIPS Operatio

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

文件:5.67499 Mbytes Page:496 Pages

Microchip

微芯科技

28/40/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology

文件:5.67499 Mbytes Page:496 Pages

Microchip

微芯科技

PIC18LF45K22产品属性

  • 类型

    描述

  • 型号

    PIC18LF45K22

  • 功能描述

    8位微控制器 -MCU 32KB Flash 1536b RAM 8b FamilynanoWat XLP

  • RoHS

  • 制造商

    Silicon Labs

  • 核心

    8051

  • 处理器系列

    C8051F39x

  • 数据总线宽度

    8 bit

  • 最大时钟频率

    50 MHz

  • 程序存储器大小

    16 KB 数据 RAM

  • 大小

    1 KB 片上

  • ADC

    Yes

  • 工作电源电压

    1.8 V to 3.6 V

  • 工作温度范围

    - 40 C to + 105 C

  • 封装/箱体

    QFN-20

  • 安装风格

    SMD/SMT

更新时间:2025-10-18 13:02:00
IC供应商 芯片型号 品牌 批号 封装 库存 备注 价格
Microchip Technology
21+
80-TQFP
5680
100%进口原装!长期供应!绝对优势价格(诚信经营
MICROCHIP
2024+
N/A
70000
柒号只做原装 现货价秒杀全网
MICROCHIP
25+
QFP44
193
公司只售原装 支持实单
MICROCHIP
24+
N/A
8000
全新原装正品,现货销售
Microchip(微芯)
2511
TQFP-44
4945
电子元器件采购降本30%!原厂直采,砍掉中间差价
MICROCHIP/微芯
2223+
UQFN40
26800
只做原装正品假一赔十为客户做到零风险
Microchip
25+
电联咨询
7800
公司现货,提供拆样技术支持
Microchip
24+
TQFP44
2000
全新原装深圳仓库现货有单必成
MICROCHIP
2016+
QFN40
15000
只做原装,假一罚十,公司可开17%增值税发票!
MICROCHIP/微芯
24+
UQFN40
9600
原装现货,优势供应,支持实单!

PIC18LF45K22数据表相关新闻