Microchip Technology Tariff Inquiry

ATSAMD20E16B-MNT

The ATSAMD20E16B-MNT is a low-power microcontroller unit (MCU) from Microchip Technology. It is part of the SAM D20 family of ARM Cortex-M0+ based MCUs, designed for a wide range of applications that require low power consumption and high performance.

Description:

The ATSAMD20E16B-MNT is a 32-bit ARM Cortex-M0+ based MCU with 16 KB of flash memory and 2 KB of SRAM. It operates at a maximum frequency of 48 MHz and is available in a 48-pin QFN package. The device is designed for low-power applications, with a wide range of power-saving features and sleep modes.

Features:

1. ARM Cortex-M0+ processor with a maximum frequency of 48 MHz
2. 16 KB of flash memory and 2 KB of SRAM
3. Low-power design with various sleep modes and power-saving features
4. 48-pin QFN package
5. Peripherals include a 12-bit ADC, 16-bit DAC, I2C, SPI, USART, and USB interface
6. Event system for easy integration of peripherals
7. Flexible clock system with an internal oscillator and support for external clock sources
8. Up to 20 GPIO pins with various functions
9. Support for capacitive touch sensing
10. Security features such as a unique 128-bit UID and hardware crypto modules

Applications:

The ATSAMD20E16B-MNT is suitable for a wide range of applications that require low power consumption and high performance. Some of the potential applications include:

1. Battery-powered devices such as wireless sensors, portable instruments, and wearable electronics
2. Industrial control and automation systems
3. Medical devices and equipment
4. Home automation and smart home devices
5. Human Interface Devices (HIDs) such as keyboards, mice, and touchpads
6. Lighting control systems
7. Consumer electronics such as portable audio players and gaming controllers
8. IoT devices and applications

The ATSAMD20E16B-MNT's low-power design, rich set of peripherals, and flexible clock system make it an ideal choice for a wide range of embedded applications that require efficient power management and high performance.