![]() ![]() The Atmel® MEGA-1284P Xplained evaluation kit is a hardware platform to evaluate the Atmel ATmega1284P microcontroller. The kit offers a large range of features that enable the megaAVR® user to get started using megaAVR peripherals right away and to get an understanding of how to integrate a megaAVR MCU in their own design.Ītmel AVR370: MEGA-1284P Xplained Getting Started Guide The Atmel® MEGA-1284P Xplained evaluation kit is a hardware platform for evaluating the ATmega1284P MCU. The application note is written from the perspective that C is the language of choice and assembly language is included in situations where it is either necessary or convenient.Ītmel AVR364: MEGA-1284P Xplained Hardware User Guide This application note describes how to mix both C and assembly code in an AVRGCC project using Studio 6 IDE. It offers simple and flexible calibration firmware source code, which allows device runtime calibration to for maintaining USB low-speed data transfers within the USB specification (1.5MHz☑.5%).Ītmel AVR32027: Mixing Assembly and C with AVRGCC This application note describes a fast and accurate method for calibrating the internal RC oscillator on the Atmel® ATmega32U4RC MCU. Touch sensor status is acquired and reported over the USB HID class to a host PC.Ītmel AVR291: 8MHz Internal Oscillator Calibration for USB Low Speed on Atmel ATmega32U4RC This application note illustrates how to use the Atmel®QTouch®Library on the Atmel® AT90USB646 microcontroller to provide a single-chip solution for QTouch sensing through a USB interface. The method uses the Advanced Encryption Standard (AES) to encrypt the firmware. This application note describes how firmware can be updated securely on AVR microcontrollers with bootloader capabilities. WLCSP technology allow devices to be integrated in the design using the smallest possible form factor. Wafer Level Chip Scale Packaging (WLCSP) refers to the technology of packaging an integrated circuit at wafer level, resulting in a device practically the same size as the die. It provides a single chip solution for sensing QTouch through USB interface.Ītmel AVR211: Wafer Level Chip Scale Packages QTouch sensor status is acquired and reported over the USB HID class to a host PC. This application note describes how to use the QTouch library with the ATxmega256A3BU microcontroller using QTouch button available on XMEGA-A3BU Xplained board. ![]() These ADC parameters are of good importance since they are a part of deciding the accuracy of the ADC's output.Ītmel AVR1632: ASF - Atmel QTouch with XMEGA USB HID This application note discusses about the basic concepts of analog-to-digital converter (ADC) and the various parameters that determine the performance of an ADC. The code examples are written in 'C' language and have been tested on the Atmel STK®600 starter kit for functionality.Ītmel AVR127: Understanding ADC parameters This application note describes the basic functionality of the ADC in Atmel® megaAVR® devices in Single ended mode with code examples on ATmega88 to get started. The application note also describes the points to be considered while using a GPIO pin as an external interrupt source pin.Ītmel AVR126: ADC of megaAVR in Single Ended Mode This application note illustrates the functionality and configuration steps (usage) of the external interrupts available in Atmel® tinyAVR® family of Atmel AVR® Microcontrollers. The application note also describes the points to be considered while using a GPIO pin as an external interrupt source pin.Ītmel AVR1201: Using External Interrupts for tinyAVR Devices ![]() This application note illustrates the functionality and configuration steps (usage) of the external interrupts available on Atmel® megaAVR® family of Atmel AVR® Microcontrollers.
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