X-On Electronics has gained recognition as a prominent supplier of ATSAM4CMS16CB-AU ARM Microcontrollers - MCU across the USA, India, Europe, Australia, and various other global locations. ATSAM4CMS16CB-AU ARM Microcontrollers - MCU are a product manufactured by Microchip. We provide cost-effective solutions for ARM Microcontrollers - MCU, ensuring timely deliveries around the world.
We are delighted to provide the ATSAM4CMS16CB-AU from our ARM Microcontrollers - MCU category, at competitive rates not only in the United States, Australia, and India, but also across Europe and beyond. A long established and extensive electronic component distribution network has enhanced our global reach and dependability, ensuring cost savings through prompt deliveries worldwide. Client satisfaction is at the heart of our business, where every component counts and every customer matters. Our technical service team is ready to assist you. From product selection to after-sales support, we strive to deliver a seamless and satisfying experience. Are you ready to experience the best in electronic component distribution? Contact X-ON Electronics today and discover why X-On are a preferred choice for the ATSAM4CMS16CB-AU and other electronic components in the ARM Microcontrollers - MCU category and beyond.
The ATSAM4CMS16CB-AU is a microcontroller part designed by Microchip. This microcontroller integrates a Cortex-M0+ core operating at up to 48MHz and provides 16KB of flash memory, 2KB of SRAM, as well as a variety of general purpose input/output (GPIO) and analog-to-digital conversion (ADC) modules. The device also features a variety of communication capabilities including an I2C, USART and Serial Peripheral Interface (SPI). Furthermore, the ATSAM4CMS16CB-AU comes with two 32kHz watch crystal oscillators for real-time clock (RTC) functionality and a 4-channel 10-bit DMA controller with dedicated DMA channels for battery management and sound. Additionally, the device includes multiple low power modes as well as hibernation and power down modes for low-power applications.