atmel 328p datasheet

The ATmega328P is a high-performance, low-power microcontroller from Atmel, featuring 32KB of in-system programmable flash memory, 1KB of EEPROM, and 2KB of SRAM. It operates with a wide voltage range of 1.8V to 5.5V, making it suitable for a variety of battery-powered and low-power applications. This microcontroller also includes 23 general purpose I/O lines, 6 flexible timers, and multiple communication interfaces such as SPI, I2C, and USART. It is designed to be fast and efficient, with a 20MHz maximum CPU speed and multiple power saving modes to conserve energy. The ATmega328P is widely used in the development of various embedded systems, including consumer electronics, industrial control systems, and remote sensors. Its compatibility with various development environments and extensive set of features make it a popular choice for engineers and developers looking for a reliable and versatile microcontroller solution.

banner

Hot Products

View More
  • TE Connectivity AMP Connectors 293696-3

    TE Connectivity AMP Connectors 293696-3

  • Amphenol ICC (FCI) 10120045-200LF

    Amphenol ICC (FCI) 10120045-200LF

  • TE Connectivity AMP Connectors 1-2008683-4

    TE Connectivity AMP Connectors 1-2008683-4

  • TE Connectivity AMP Connectors 1-293657-5

    TE Connectivity AMP Connectors 1-293657-5

  • TE Connectivity AMP Connectors 2213225-4

    TE Connectivity AMP Connectors 2213225-4

  • TE Connectivity AMP Connectors 1-293721-3

    TE Connectivity AMP Connectors 1-293721-3

  • TE Connectivity AMP Connectors 2154150-4

    TE Connectivity AMP Connectors 2154150-4

  • Molex 5034690200

    Molex 5034690200

  • TE Connectivity AMP Connectors 2834048-3

    TE Connectivity AMP Connectors 2834048-3

  • TE Connectivity AMP Connectors 2213434-3

    TE Connectivity AMP Connectors 2213434-3

  • TE Connectivity AMP Connectors 2154018-3

    TE Connectivity AMP Connectors 2154018-3

  • TE Connectivity AMP Connectors 1-293721-1

    TE Connectivity AMP Connectors 1-293721-1

Related Blogs

  • 2024 / 12 / 21

    Illuminating Your Space: The Benefits of PIR Motion Sensors and Optical Motion Sensors

    ...

    Illuminating Your Space: The Benefits of PIR Motion Sensors and Optical Motion Sensors
  • 2024 / 12 / 16

    Understanding RF Modulators, Receivers, and Transmitters: The Backbone of Wireless Communication

    ...

    Understanding RF Modulators, Receivers, and Transmitters: The Backbone of Wireless Communication
  • 2024 / 12 / 09

    The Evolution of Light Emitting Diodes: From Traditional LEDs to Organic and Schottky Variants

    ...

    The Evolution of Light Emitting Diodes: From Traditional LEDs to Organic and Schottky Variants
  • 2024 / 11 / 29

    The Evolution and Impact of Interface Chips, Logic Chips, and Microprocessor Chips in Modern Technol

    ...

    The Evolution and Impact of Interface Chips, Logic Chips, and Microprocessor Chips in Modern Technol
  • 2024 / 11 / 18

    Understanding Voltage Reference and Voltage Regulators in Integrated Circuits

    ...

    Understanding Voltage Reference and Voltage Regulators in Integrated Circuits
  • 2024 / 11 / 09

    Understanding Counter Chips: A Deep Dive into Types of Integrated Chips and Embedded Chips

    ...

    Understanding Counter Chips: A Deep Dive into Types of Integrated Chips and Embedded Chips
  • 2024 / 11 / 01

    The Art and Science of IC Design: Bridging the Gap Between IC Circuits and Computer Technology

    ...

    The Art and Science of IC Design: Bridging the Gap Between IC Circuits and Computer Technology
  • 2024 / 10 / 26

    Understanding Instrumentation Amplifiers: The Role of Inverting and Non-Inverting Amplifiers in Oper

    ...

    Understanding Instrumentation Amplifiers: The Role of Inverting and Non-Inverting Amplifiers in Oper
  • 2024 / 10 / 18

    The Future of Sensing Technology: Image Sensors, Distance Sensors, and Motion Sensors

    ...

    The Future of Sensing Technology: Image Sensors, Distance Sensors, and Motion Sensors
  • 2024 / 10 / 12

    Understanding the Differences: Laser Diodes vs. LED Diodes vs. Light Emitting Diodes

    ...

    Understanding the Differences: Laser Diodes vs. LED Diodes vs. Light Emitting Diodes
Inquiry Now
How can we help you?

In Stock

Please send RFQ , we will respond immediately.