 Applications and Examples | |
| Unit Tests | |
| Related Project(s) | In this section you can find all the projects related to the utf8_group |
 Serial Interface (Serial) | See Quick start guide for Serial Interface service |
 Related Project(s) | In this section you can find all the projects related to the Serial Interface (Serial) |
 Quick Start Guide(s) | In this section you can find a list of all Quick Start guides related to the Serial Interface (Serial) |
| SAM3A/3N/3S/3U/3X/4E/4N/4S/G Peripheral DMA Controller (PDC) Driver | This driver for Atmel® | SMART ARM®-based microcontrollers provides an interface for the configuration and management of the the Peripheral Direct Memory Access (DMA) Controller (PDC) module |
| Quick Start Guide(s) | In this section you can find a list of all Quick Start guides related to the SAM3A/3N/3S/3U/3X/4E/4N/4S/G Peripheral DMA Controller (PDC) Driver |
| Busy-Wait Delay Routines | This module provides simple loop-based delay routines for those applications requiring a brief wait during execution |
| Common IOPORT API | See Quick start guide for the common IOPORT service |
| Related Project(s) | In this section you can find all the projects related to the Common IOPORT API |
| Quick Start Guide(s) | In this section you can find a list of all Quick Start guides related to the Common IOPORT API |
| Two Wire-interface(TWI) | This is the common API for TWIs |
| Quick Start Guide(s) | In this section you can find a list of all Quick Start guides related to the Two Wire-interface(TWI) |
| USART in SPI (Serial Peripheral Interface) mode | This is the common API for USART in SPI mode |
| USB device descriptors for a single interface | The following structures provide the USB device descriptors required for USB Device with a single interface MSC |
| IEEE 802.15.4 MAC v3.1.1 | The IEEE standard 802.15.4 MAC Layer defines the protocol and compatible interconnection for data communication devices using low data rate, low power and low complexity, short-range radio frequency (RF) transmissions in a wireless personal area network (WPAN) |
| MAC Build Configurations | Defines MAC Build Configuration Used |
| MAC Data Structures | This module defines all the MAC Data Structures |
| MAC Core Layer(MCL) | The MAC Core Layer (MCL) abstracts and implements IEEE 802.15.4-2006 compliant behavior for non-beacon enabled and beacon-enabled network support |
 MAC Definitions | All Definitions used by the MAC Layer is described here |
 MAC Data Structures | This module defines all the MAC Data Structures |
| MAC Core Layer(MCL) | The MAC Core Layer (MCL) abstracts and implements IEEE 802.15.4-2006 compliant behavior for non-beacon enabled and beacon-enabled network support |
| MAC Definitions | All Definitions used by the MAC Layer is described here |
| MAC Data Structures | This module defines all the MAC Data Structures |
| MAC Core Layer(MCL) | The MAC Core Layer (MCL) abstracts and implements IEEE 802.15.4-2006 compliant behavior for non-beacon enabled and beacon-enabled network support |
| MAC Definitions | All Definitions used by the MAC Layer is described here |
| MAC Data Structures | This module defines all the MAC Data Structures |
| MAC Core Layer(MCL) | The MAC Core Layer (MCL) abstracts and implements IEEE 802.15.4-2006 compliant behavior for non-beacon enabled and beacon-enabled network support |
| MAC Definitions | All Definitions used by the MAC Layer is described here |
| MAC Data Structures | This module defines all the MAC Data Structures |
| MAC Core Layer(MCL) | The MAC Core Layer (MCL) abstracts and implements IEEE 802.15.4-2006 compliant behavior for non-beacon enabled and beacon-enabled network support |
| MAC Definitions | All Definitions used by the MAC Layer is described here |
| MAC Data Structures | This module defines all the MAC Data Structures |
| MAC Core Layer(MCL) | The MAC Core Layer (MCL) abstracts and implements IEEE 802.15.4-2006 compliant behavior for non-beacon enabled and beacon-enabled network support |
| MAC Definitions | All Definitions used by the MAC Layer is described here |
| MAC Data Structures | This module defines all the MAC Data Structures |
| MAC Core Layer(MCL) | The MAC Core Layer (MCL) abstracts and implements IEEE 802.15.4-2006 compliant behavior for non-beacon enabled and beacon-enabled network support |
| MAC Definitions | All Definitions used by the MAC Layer is described here |
| MAC Data Structures | This module defines all the MAC Data Structures |
| MAC Core Layer(MCL) | The MAC Core Layer (MCL) abstracts and implements IEEE 802.15.4-2006 compliant behavior for non-beacon enabled and beacon-enabled network support |
| MAC Definitions | All Definitions used by the MAC Layer is described here |
| MAC Data Structures | This module defines all the MAC Data Structures |
| MAC Core Layer(MCL) | The MAC Core Layer (MCL) abstracts and implements IEEE 802.15.4-2006 compliant behavior for non-beacon enabled and beacon-enabled network support |
| MAC Definitions | All Definitions used by the MAC Layer is described here |
| MAC Data Structures | This module defines all the MAC Data Structures |
| MAC Core Layer(MCL) | The MAC Core Layer (MCL) abstracts and implements IEEE 802.15.4-2006 compliant behavior for non-beacon enabled and beacon-enabled network support |
| MAC Definitions | All Definitions used by the MAC Layer is described here |
| MAC Definitions | All Definitions used by the MAC Layer is described here |
| MAC Data Structures | This module defines all the MAC Data Structures |
| MAC Core Layer(MCL) | The MAC Core Layer (MCL) abstracts and implements IEEE 802.15.4-2006 compliant behavior for non-beacon enabled and beacon-enabled network support |
| MAC Definitions | All Definitions used by the MAC Layer is described here |
| MAC Data Structures | This module defines all the MAC Data Structures |
| MAC Core Layer(MCL) | The MAC Core Layer (MCL) abstracts and implements IEEE 802.15.4-2006 compliant behavior for non-beacon enabled and beacon-enabled network support |
| MAC Definitions | All Definitions used by the MAC Layer is described here |
| MAC Data Structures | This module defines all the MAC Data Structures |
| MAC Core Layer(MCL) | The MAC Core Layer (MCL) abstracts and implements IEEE 802.15.4-2006 compliant behavior for non-beacon enabled and beacon-enabled network support |
| MAC Definitions | All Definitions used by the MAC Layer is described here |
| MAC Data Structures | This module defines all the MAC Data Structures |
| MAC Core Layer(MCL) | The MAC Core Layer (MCL) abstracts and implements IEEE 802.15.4-2006 compliant behavior for non-beacon enabled and beacon-enabled network support |
| MAC Definitions | All Definitions used by the MAC Layer is described here |
| MAC Data Structures | This module defines all the MAC Data Structures |
| MAC Core Layer(MCL) | The MAC Core Layer (MCL) abstracts and implements IEEE 802.15.4-2006 compliant behavior for non-beacon enabled and beacon-enabled network support |
| MAC Definitions | All Definitions used by the MAC Layer is described here |
| MAC Data Structures | This module defines all the MAC Data Structures |
| MAC Core Layer(MCL) | The MAC Core Layer (MCL) abstracts and implements IEEE 802.15.4-2006 compliant behavior for non-beacon enabled and beacon-enabled network support |
| MAC Definitions | All Definitions used by the MAC Layer is described here |
| MAC Data Structures | This module defines all the MAC Data Structures |
| MAC Core Layer(MCL) | The MAC Core Layer (MCL) abstracts and implements IEEE 802.15.4-2006 compliant behavior for non-beacon enabled and beacon-enabled network support |
| MAC Definitions | All Definitions used by the MAC Layer is described here |
| MAC Data Structures | This module defines all the MAC Data Structures |
| MAC Core Layer(MCL) | The MAC Core Layer (MCL) abstracts and implements IEEE 802.15.4-2006 compliant behavior for non-beacon enabled and beacon-enabled network support |
| MAC Definitions | All Definitions used by the MAC Layer is described here |
| MAC Data Structures | This module defines all the MAC Data Structures |
| MAC Core Layer(MCL) | The MAC Core Layer (MCL) abstracts and implements IEEE 802.15.4-2006 compliant behavior for non-beacon enabled and beacon-enabled network support |
| MAC Definitions | All Definitions used by the MAC Layer is described here |
| MAC Data Structures | This module defines all the MAC Data Structures |
| MAC Prototypes | All MAC Prototypes are described in this module |
| MCL API's | This module describes all Mac Core Layer(MCL) API's |
| MCL Request API's | This module describes all MCL Request API's |
| MCL General API's | This module describes all MCL General API's |
| MCL Confirmation API's | This module describes all MCL Confirmation API's |
| MCL Indication API's | This module describes all MCL Indication API's |
| MCL Response API's | This module describes all MCL Response API's |
| MAC Callback's | This module describes all MAC Callback's |
| MAC Confirmation Callback's | This module describes all MAC Confirmation Callback's |
| MAC Indication Callback' | This module describes all MAC Indication Callback's |
| MAC API's | The application interfaces the MAC stack via the MAC-API |
| MAC Request API's | This module describes all MAC Request API's |
| MAC General API's | This module describes all MAC General API's |
| MAC Response API's | This module describes all MAC Response API's |
| MAC Core Layer(MCL) | The MAC Core Layer (MCL) abstracts and implements IEEE 802.15.4-2006 compliant behavior for non-beacon enabled and beacon-enabled network support |
| Serial Peripheral Interface (SPI) | See Quickstart guide for SAM SPI driver |
| Related Project(s) | In this section you can find all the projects related to the Serial Peripheral Interface (SPI) |
| Quick Start Guide(s) | In this section you can find a list of all Quick Start guides related to the Serial Peripheral Interface (SPI) |
| Standard I/O (stdio) | Common standard I/O driver that implements the stdio read and write functions on AVR and SAM devices |
| Standard serial I/O (stdio) | Common standard serial I/O management driver that implements a stdio serial interface on AVR and SAM devices |
| Related Project(s) | In this section you can find all the projects related to the Standard serial I/O (stdio) |
| USB/CDC Standard I/O (stdio) | Standard I/O (stdio) management component that implements a stdio USB CDC interface on AVR devices |
| Related Project(s) | In this section you can find all the projects related to the USB/CDC Standard I/O (stdio) |
| Quick Start Guide(s) | In this section you can find a list of all Quick Start guides related to the USB/CDC Standard I/O (stdio) |
| Compiler abstraction layer and code utilities | Compiler abstraction layer and code utilities for AT91SAM |
| Preprocessor - Macro Repeat | |
| Preprocessor - Token Paste | |
| Preprocessor - Stringize | |
| Transceiver Feature Access | The Atmel transceivers provide a variety of additional hardware features features that are not reflected in the IEEE 802.15.4 standard |
| General Purpose Input/Output | This is the common API for GPIO |
| SIO2HOST - UART | This module performs serial input/output functionalities via UART |
| Interface with USB Device Core (UDC) | Structures and functions required by UDC |
| Implementation of UDI HID multi-touch | Class internal implementation |
| Common WL Definitions | All General Definitions used by the Wireless Stack applications are defined in this module |
| MAC Build Configurations | Defines MAC Build Configuration Used |
| Return Values | All return Value Enumerations are defined in this module |
| Common Stack Definitions | Includes Stack Definitions |
| IEEE Constants | Includes IEEE Constant Definitions |
| Descriptors for a USB Device | Composite |
| Performance Analyzer Application | This application Performance Analyzer is a Serial interface based application, which communicates with Wireless Analyzer to demonstrate various features and capabilities of Atmel Transceivers |
| Range Measurement | Performs the functionalities of Range measurement mode, Evaluate the Communication coverage of the transceiver |
| Serial Parser | Handles all the serial input and output commands |
| Application Initialization Process | Initializes the Performance Analyzer Application |
| Peer Search Process | Handles the functionalities of peer searching process |
| Peer Search Initiator | This module handles the Peer search Initiation Process |
| Configuration Mode | This Module handles the Functionalities of Configuration Mode |
| Peer Search Receptor | This module handles the Peer search Receptor Process |
| Peer Search Initiator | This module handles the Peer search Initiation Process |
| Configuration Mode | This Module handles the Functionalities of Configuration Mode |
| User Interface | Handles all User interface related functions such as Button, Print,LED events |
| Packet error rate measurement | Handles the functionalities of Packet Error Rate Measurement(PER) Mode, User can set and get various paramters of Transceiver like Channel,Antenna Diversity,CSMA and do the Packet Error Rate Measurement |
| PER mode Initiator | This module handles the functionalities of the Initiator in PER mode |
| PER mode Receptor | This module handles the functionalities of the receptor in PER mode |
| PER mode Receptor | This module handles the functionalities of the receptor in PER mode |
| PER mode Common Utilities | This module handles the PER mode Common utilities used by Initiator and Receptor |
| First-In-First-Out Buffer (FIFO) | See Quick start guide for First-In-First-Out Buffer (FIFO) |
| Quick Start Guide(s) | In this section you can find a list of all Quick Start guides related to the First-In-First-Out Buffer (FIFO) |
| Serial Peripheral Interface (SPI) | This is the common API for SPI interface |
| Related Project(s) | In this section you can find all the projects related to the Serial Peripheral Interface (SPI) |
| Quick Start Guide(s) | In this section you can find a list of all Quick Start guides related to the Serial Peripheral Interface (SPI) |
| Global interrupt management | This is a driver for global enabling and disabling of interrupts |
| Related Project(s) | In this section you can find all the projects related to the Global interrupt management |
| Deprecated interrupt definitions | |
| Universal Asynchronous Receiver Transceiver (UART) | The Universal Asynchronous Receiver Transmitter features a two-pin UART that can be used for communication and trace purposes and offers an ideal medium for in-situ programming solutions |
| Implementation of SD/MMC/SDIO Stack | |
| SD/MMC/SDIO common stack | SD/MMC/SDIO basic APIs used by SD/MMC/SDIO memory APIs (sd_mmc_stack_mem_group) |
| Related Project(s) | In this section you can find all the projects related to the SD/MMC/SDIO common stack |
| Common SPI interface for SD/MMC stack | |
| SD/MMC Memory | SD/MMC memory APIs required by CTRL_ACCESS module (Memory Control Access) |
| Implementation of SD/MMC Memory | |
| SD/MMC Protocol Definition | |
| SAM3/4S/4L/4E/4N/4CM/4C/G Timer Counter (TC) Driver | This driver for Atmel® | SMART ARM®-based microcontrollers provides an interface for the configuration and management of the device's Timer Counter functionality |
| Power Management Controller (PMC) | |
| Related Project(s) | In this section you can find all the projects related to the Power Management Controller (PMC) |
| Quick Start Guide(s) | In this section you can find a list of all Quick Start guides related to the Power Management Controller (PMC) |
| Power Manager (PM) | This is a stub on the SAM Power Manager Control (PMC) for the sleepmgr service |
| AT25DFx SerialFlash component driver. | See Quickstart guide for AT25DFx component. |
| Related Project(s) | In this section you can find all the projects related to the AT25DFx SerialFlash component driver. |
| Quick Start Guide(s) | In this section you can find a list of all Quick Start guides related to the AT25DFx SerialFlash component driver. |
| QTouch device driver for I2C interface | See Quick start guide for QTouch component |
| Related Project(s) | In this section you can find all the projects related to the QTouch device driver for I2C interface |
| Quick Start Guide(s) | In this section you can find a list of all Quick Start guides related to the QTouch device driver for I2C interface |
| QT Device list support by the driver | |
| Definitions for Atmel AT42QT2160 device | |
| General Purpose Backup Registers (GPBR) | Driver for the General Purpose Backup Registers |
| Related Project(s) | In this section you can find all the projects related to the General Purpose Backup Registers (GPBR) |
| Atmel part identification macros | This collection of macros identify which series and families that the various Atmel parts belong to |
| AVR UC3 parts | |
| AVR XMEGA parts | |
| megaAVR parts | |
| SAM parts | |
| Supply Controller (SUPC) | Driver for the SUPC (Supply Controller) |
| Related Project(s) | In this section you can find all the projects related to the Supply Controller (SUPC) |
| Chip Identifier (CHIPID) | |
| Related Project(s) | In this section you can find all the projects related to the Chip Identifier (CHIPID) |
| xQueueCreate | Queue |
| xQueueSend | Queue |
| xQueueReceive | Queue |
| xQueueSendFromISR | Queue |
| xQueueReceiveFromISR | Queue |
| vSemaphoreCreateBinary | Semphr |
| xSemaphoreTake | Semphr |
| xSemaphoreTakeRecursive | Semphr |
| xSemaphoreGive | Semphr |
| xSemaphoreGiveRecursive | Semphr |
| xSemaphoreGiveFromISR | Semphr |
| vSemaphoreCreateMutex | Semphr |
| xSemaphoreCreateCounting | Semphr |
| xCoRoutineCreate | Croutine |
| vCoRoutineSchedule | Croutine |
| crSTART | Croutine |
| crDELAY | Croutine |
| crQUEUE_SEND | |
| crQUEUE_RECEIVE | Croutine |
| crQUEUE_SEND_FROM_ISR | Croutine |
| crQUEUE_RECEIVE_FROM_ISR | Croutine |
| xTaskCreate | Task |
| xTaskCreateRestricted | Task |
| vTaskDelete | Task |
| vTaskDelay | Task |
| vTaskDelayUntil | Task |
| uxTaskPriorityGet | Task |
| vTaskPrioritySet | Task |
| vTaskSuspend | Task |
| vTaskResume | Task |
| vTaskResumeFromISR | Task |
| vTaskStartScheduler | Task |
| vTaskEndScheduler | Task |
| vTaskSuspendAll | Task |
| xTaskResumeAll | Task |
| Convolution Example | |
| CAN - SN65HVD234 | Transceiver |
| Related Project(s) | In this section you can find all the projects related to the CAN - SN65HVD234 |
| Light Weight Mesh v2.0 | Lightweight Mesh software stack is an easy to use proprietary low power
wireless mesh network protocol |
| PHY | Radio physical layer (PHY) provides functions for radio transceiver access |
| AT86RF231 PHY Layer | The AT86RF231 is a feature rich, low-power 2.4 GHz radio transceiver designed for industrial and consumer ZigBee/IEEE 802.15.4, 6LoWPAN, RF4CE and high data rate sub 1GHz ISM band applications Refer AT86RF231 Data Sheet for detailed information |
| AT86RF212B PHY Layer | The AT86RF212 is a low-power ,low voltage 700/800/900 MHz radio transceiver designed for industrial and consumer ZigBee/IEEE 802.15.4, 6LoWPAN, RF4CE and high data rate sub 1GHz ISM band applications |
| AT86RF212 PHY Layer | The AT86RF212 is a low-power ,low voltage 700/800/900 MHz radio transceiver designed for industrial and consumer ZigBee/IEEE 802.15.4, 6LoWPAN, RF4CE and high data rate sub 1GHz ISM band applications |
| AT86RF233 PHY Layer | The AT86RF233 is a feature rich, low-power 2.4 GHz radio transceiver designed for industrial and consumer ZigBee/IEEE 802.15.4, 6LoWPAN, RF4CE and high data rate sub 1GHz ISM band applications Refer AT86RF233 Data Sheet for detailed information |
| Network layer(NWK) | Network layer (NWK) provides core stack functionality and provides two routing algorithms,1.Native routing and 2.AODV routing |
| LWMesh System Services | System services provide common functions for all layers, which are necessary for normal stack operation |
| LWMesh System Services - Timer | |
| Universal Synchronous Asynchronous | Receiver Transmitter (USART) |
| Related Project(s) | In this section you can find all the projects related to the Universal Synchronous Asynchronous |
| Quick Start Guide(s) | In this section you can find a list of all Quick Start guides related to the Universal Synchronous Asynchronous |
| Universal Synchronous Asynchronous Receiver | Transmitter (USART) |
| xMessageBufferCreate | Message_buffer.h |
| xMessageBufferCreateStatic | Message_buffer.h |
| xMessageBufferSend | Message_buffer.h |
| xMessageBufferSendFromISR | Message_buffer.h |
| xMessageBufferReceive | Message_buffer.h |
| xMessageBufferReceiveFromISR | Message_buffer.h |
| xMessageBufferReset | Message_buffer.h |
| xMessageBufferSpaceAvailable | Message_buffer.h |
| xMessageBufferSendCompletedFromISR | Message_buffer.h |
| xMessageBufferReceiveCompletedFromISR | Message_buffer.h |
| xQueueCreateStatic | Queue |
| xQueueOverwrite | Queue |
| xQueuePeek | Queue |
| xQueuePeekFromISR | Queue |
| uxQueueMessagesWaiting | Queue |
| vQueueDelete | Queue |
| xQueueOverwriteFromISR | Queue |
| TaskHandle_t | Task |
| taskYIELD | Task |
| taskENTER_CRITICAL | Task |
| taskEXIT_CRITICAL | Task |
| taskDISABLE_INTERRUPTS | Task |
| taskENABLE_INTERRUPTS | Task |
| xTaskCreateStatic | Task |
| xTaskCreateRestrictedStatic | Task |
| xTaskAbortDelay | Task |
| vTaskGetInfo | Task |
| xTaskGetTickCount | Task |
| xTaskGetTickCountFromISR | Task |
| uxTaskGetNumberOfTasks | Task |
| pcTaskGetName | Task |
| pcTaskGetHandle | Task |
| vTaskList | Task |
| vTaskGetRunTimeStats | Task |
| xTaskNotify | Task |
| xTaskNotifyWait | Task |
| xTaskNotifyGive | Task |
| ulTaskNotifyTake | Task |
| xTaskNotifyStateClear | Task |
| xStreamBufferCreate | Message_buffer.h |
| xStreamBufferCreateStatic | Stream_buffer.h |
| xStreamBufferSend | Stream_buffer.h |
| xStreamBufferSendFromISR | Stream_buffer.h |
| xStreamBufferReceive | Stream_buffer.h |
| xStreamBufferReceiveFromISR | Stream_buffer.h |
| vStreamBufferDelete | Stream_buffer.h |
| xStreamBufferIsFull | Stream_buffer.h |
| xStreamBufferIsEmpty | Stream_buffer.h |
| xStreamBufferReset | Stream_buffer.h |
| xStreamBufferSpacesAvailable | Stream_buffer.h |
| xStreamBufferBytesAvailable | Stream_buffer.h |
| xStreamBufferSetTriggerLevel | Stream_buffer.h |
| xStreamBufferSendCompletedFromISR | Stream_buffer.h |
| xStreamBufferReceiveCompletedFromISR | Stream_buffer.h |
| xSemaphoreCreateBinary | Semphr |
| xSemaphoreCreateBinaryStatic | Semphr |
| xSemaphoreCreateMutex | Semphr |
| xSemaphoreCreateMutexStatic | Semphr |
| xSemaphoreCreateRecursiveMutex | Semphr |
| xSemaphoreCreateRecursiveMutexStatic | Semphr |
| xSemaphoreCreateCountingStatic | Semphr |
| vSemaphoreDelete | Semphr |
| EventGroup | An event group is a collection of bits to which an application can assign a meaning |
| EventGroupHandle_t | Event_groups.h |
| xEventGroupCreate | Event_groups.h |
| xEventGroupWaitBits | Event_groups.h |
| xEventGroupClearBits | Event_groups.h |
| xEventGroupClearBitsFromISR | Event_groups.h |
| xEventGroupSetBits | Event_groups.h |
| xEventGroupSetBitsFromISR | Event_groups.h |
| xEventGroupSync | Event_groups.h |
| xEventGroupGetBits | Event_groups.h |
| xEventGroupGetBitsFromISR | Event_groups.h |
| 90_00028_A0 display using ILI9488 display controller | This is hardware specific configuration that configures the graphical service for use with the ILI9488 display controller and the 90-00028-A0 display |
| SineCosine Example | |
| Display - ILI9325 Controller | Low-level driver for the ILI9325 LCD controller |
| Resistive Touch Service | This service provides an interface for handling resistive touch component |
| Related Project(s) | In this section you can find all the projects related to the Resistive Touch Service |
| ADS7843 Touch Controller | This is hardware specific configuration that configures the resistive touch service for use with the ADS7843 touch controller |
| Virtual Memory in RAM | The component manages a disk on a volatile memory (internal RAM) |
| Controller Area Network (CAN) Driver | See Quickstart guide for SAM CAN module. |
| Related Project(s) | In this section you can find all the projects related to the Controller Area Network (CAN) Driver |
| Quick Start Guide(s) | In this section you can find a list of all Quick Start guides related to the Controller Area Network (CAN) Driver |
| FatFS file system service | Service of FatFS file system |
| PHY component (KSZ8051MNL) | Driver for the ksz8051mnl component |
| AT45dbx DataFlash component driver. | This is a driver for the AT45dbX series DataFlash memories |
| Generic board support | The generic board support module includes board-specific definitions and function prototypes, such as the board initialization function |
| Real-time Timer (RTT) | The Real-time Timer is built around a 32-bit counter used to count roll-over events of the programmable 16-bit prescaler, which enables counting elapsed seconds from a 32 kHz slow clock source |
| Related Project(s) | In this section you can find all the projects related to the Real-time Timer (RTT) |
| FIR Lowpass Filter Example | |
| Embedded Flash Service | The Embedded Flash service provides functions for internal flash operations |
| Related Project(s) | In this section you can find all the projects related to the Embedded Flash Service |
| SAM3/4C/4CM/4CP/4E/4N/4S/G/V71/V70/S70/E70 Reset Controller (RSTC) Driver | This driver for Atmel® | SMART ARM®-based microcontrollers provides an interface for the configuration and management of the device's Reset Controller functionality |
| Related Project(s) | In this section you can find all the projects related to the SAM3/4C/4CM/4CP/4E/4N/4S/G/V71/V70/S70/E70 Reset Controller (RSTC) Driver |
| USB device descriptors for a single interface | The following structures provide the USB device descriptors required for USB Device with a single interface Vendor Class |
| display using ILI93XX display controller | This is hardware specific configuration that configures the graphical service for use with the ILI93XX display controller display |
| Peripheral Parallel Input/Output (PIO) Controller | |
| Related Project(s) | In this section you can find all the projects related to the Peripheral Parallel Input/Output (PIO) Controller |
| Quick Start Guide(s) | In this section you can find a list of all Quick Start guides related to the Peripheral Parallel Input/Output (PIO) Controller |
| Sleep manager | The sleep manager is a service for ensuring that the device is not put to sleep in deeper sleep modes than the system (e.g., peripheral drivers, services or the application) allows at any given time |
| SSD1306 OLED Controller Low-level driver | This is a low level driver for the SSD1306 OLED controller through 4-wire SPI |
| SAM3S/4E/4S/V71/V70/S70/E70 Analog Comparator Controller (ACC) Driver | This driver for Atmel® | SMART ARM®-based microcontrollers provides an interface for the configuration and management of the device's Analog Comparator Controller functionality |
| Related Project(s) | In this section you can find all the projects related to the SAM3S/4E/4S/V71/V70/S70/E70 Analog Comparator Controller (ACC) Driver |
| Two-Wire Interface (TWI) | Driver for the TWI (Two-Wire Interface) |
| Related Project(s) | In this section you can find all the projects related to the Two-Wire Interface (TWI) |
| USB device descriptors for a single interface | The following structures provide the USB device descriptors required for USB Device with a single interface CDC |
| Linear Interpolate Example | CMSIS DSP Software Library – Linear Interpolate Example |
| USB Stack | This stack includes the USB Device Stack, USB Host Stack and common definitions |
| USB Stack Device | This module includes USB Stack Device implementation |
| USB Device Interface (UDI) | The UDI provides a common API for all classes, and this is used by UDC for the main control of USB Device interface |
| Related Project(s) | In this section you can find all the projects related to the USB Device Interface (UDI) |
| USB interface descriptors | The following structures provide predefined USB interface descriptors |
| Related Project(s) | In this section you can find all the projects related to the USB interface descriptors |
| Quick Start Guide(s) | In this section you can find a list of all Quick Start guides related to the USB interface descriptors |
| Interface with USB Device Core (UDC) | Structures and functions required by UDC |
| Implementation of UDI MSC | Class internal implementation |
| USB Device Interface (UDI) for Communication Class Device (CDC) | Common APIs used by high level application to use this USB class |
| Related Project(s) | In this section you can find all the projects related to the USB Device Interface (UDI) for Communication Class Device (CDC) |
| Quick Start Guide(s) | In this section you can find a list of all Quick Start guides related to the USB Device Interface (UDI) for Communication Class Device (CDC) |
| Interface with USB Device Core (UDC) | Structures and functions required by UDC |
| Implementation of UDI CDC | Class internal implementation |
| USB interface descriptors | The following structures provide predefined USB interface descriptors |
| USB Device Interface (UDI) for Vendor Class | Common APIs used by high level application to use this USB class |
| Related Project(s) | In this section you can find all the projects related to the USB Device Interface (UDI) for Vendor Class |
| Quick Start Guide(s) | In this section you can find a list of all Quick Start guides related to the USB Device Interface (UDI) for Vendor Class |
| Interface with USB Device Core (UDC) | Structures and functions required by UDC |
| Implementation of UDI Vendor Class | Class internal implementation |
| USB interface descriptors | The following structures provide predefined USB interface descriptors |
| USB Device Interface (UDI) for Human Interface Device (HID) | Common library for all Human Interface Device (HID) implementation |
| USB Device Interface (UDI) for Human Interface Device (HID) Mouse Class | Common APIs used by high level application to use this USB class |
| Related Project(s) | In this section you can find all the projects related to the USB Device Interface (UDI) for Human Interface Device (HID) Mouse Class |
| Quick Start Guide(s) | In this section you can find a list of all Quick Start guides related to the USB Device Interface (UDI) for Human Interface Device (HID) Mouse Class |
| Interface with USB Device Core (UDC) | Structures and functions required by UDC |
| Implementation of UDI HID Mouse | Class internal implementation |
| USB interface descriptors | The following structures provide predefined USB interface descriptors |
| USB device descriptors for a single interface | The following structures provide the USB device descriptors required for USB Device with a single interface HID mouse |
| USB Device Interface (UDI) for Human Interface Device (HID) Multi-touch Class | Common APIs used by high level application to use this USB class |
| Related Project(s) | In this section you can find all the projects related to the USB Device Interface (UDI) for Human Interface Device (HID) Multi-touch Class |
| Quick Start Guide(s) | In this section you can find a list of all Quick Start guides related to the USB Device Interface (UDI) for Human Interface Device (HID) Multi-touch Class |
| USB device descriptors for a single interface | The following structures provide the USB device descriptors required for USB Device with a single interface HID multi-touch |
| USB interface descriptors | The following structures provide predefined USB interface descriptors |
| USB Device Interface (UDI) for Human Interface Device (HID) Keyboard Class | Common APIs used by high level application to use this USB class |
| Related Project(s) | In this section you can find all the projects related to the USB Device Interface (UDI) for Human Interface Device (HID) Keyboard Class |
| Quick Start Guide(s) | In this section you can find a list of all Quick Start guides related to the USB Device Interface (UDI) for Human Interface Device (HID) Keyboard Class |
| Interface with USB Device Core (UDC) | Structures and functions required by UDC |
| Implementation of UDI HID keyboard | Class internal implementation |
| USB device descriptors for a single interface | The following structures provide the USB device descriptors required for USB Device with a single interface HID keyboard |
| USB interface descriptors | The following structures provide predefined USB interface descriptors |
| Implementation of HID common library | |
| USB Device Interface (UDI) for Human Interface Device (HID) Generic Class | Common APIs used by high level application to use this USB class |
| Related Project(s) | In this section you can find all the projects related to the USB Device Interface (UDI) for Human Interface Device (HID) Generic Class |
| Quick Start Guide(s) | In this section you can find a list of all Quick Start guides related to the USB Device Interface (UDI) for Human Interface Device (HID) Generic Class |
| Interface with USB Device Core (UDC) | Structures and functions required by UDC |
| Implementation of UDI HID Generic | Class internal implementation |
| USB device descriptors for a single interface | The following structures provide the USB device descriptors required for USB Device with a single interface HID generic |
| USB interface descriptors | The following structures provide predefined USB interface descriptors |
| USB Device Interface (UDI) for Personal Healthcare | Device Class (PHDC) |
| Related Project(s) | In this section you can find all the projects related to the USB Device Interface (UDI) for Personal Healthcare |
| Interface with USB Device Core (UDC) | Structures and functions required by UDC |
| Implementation of UDI PHDC | Class internal implementation |
| USB interface descriptors | The following structures provide predefined USB interface descriptors |
| USB Device Driver (UDD) | The UDD driver provides a low-level abstraction of the device controller hardware |
| USB Device Port Driver | UDP low-level driver for USB device mode |
| USB Device Controller (UDC) | The UDC provides a high-level abstraction of the usb device |
| USB Device Controller (UDC) - Prerequisites | Common prerequisites for all USB devices |
| USB Device Controller (UDC) - Example code | Common example code for all USB devices |
| USB Device Controller (UDC) - Workflow | Common workflow for all USB devices |
| USB Device Descriptor | |
| Implementation of UDC | Internal implementation |
| USB Protocol Definitions | This module defines constants and data structures provided by the USB 2.0 specification |
| USB Personal Healthcare Device Class (PHDC) | Protocol definitions |
| USB Mass Storage Class (MSC) protocol definitions | |
| SCSI Primary Commands protocol definitions | |
| SCSI Block Commands protocol definitions | |
| USB Vendor Class definitions | |
| USB Human Interface Device (HID) | Protocol definitions |
| Communication Device Class Definitions | |
| USB Android Open Accessory | |
| Atmel USB Identifiers | This module defines Atmel PID and VIDs constants |
| Dot Product Example | |
| Ethernet PHY Media Access Controller | See Quickstart guide for GMAC driver. |
| Related Project(s) | In this section you can find all the projects related to the Ethernet PHY Media Access Controller |
| Quick Start Guide(s) | In this section you can find a list of all Quick Start guides related to the Ethernet PHY Media Access Controller |
| Clock Management | |
| Related Project(s) | In this section you can find all the projects related to the Clock Management |
| Quick Start Guide(s) | In this section you can find a list of all Quick Start guides related to the Clock Management |
| Generic Clock Management | Generic clocks are configurable clocks which run outside the system clock domain |
| Oscillator Management | This group contains functions and definitions related to configuring and enabling/disabling on-chip oscillators |
| System Clock Management | See Quick Start Guide for the System Clock Management |
| PLL Management | This group contains functions and definitions related to configuring and enabling/disabling on-chip PLLs |
| Matrix (MATRIX) | |
| Related Project(s) | In this section you can find all the projects related to the Matrix (MATRIX) |
| Signal Convergence Example | |
| Transceiver Abstraction Layer | The Transceiver Abstraction Layer (TAL) implements the transceiver specific functionalities and provides interfaces to the upper layers (like IEEE 802.15.4 MAC )and uses the services of PAL |
| AT86RF231 Transceiver Abstraction Layer | The AT86RF231 is a feature rich, low-power 2.4 GHz radio transceiver designed for industrial and consumer ZigBee/IEEE 802.15.4, 6LoWPAN, RF4CE and high data rate sub 1GHz ISM band applications The Transceiver Abstraction Layer (TAL) implements the transceiver specific functionalities and provides interfaces to the upper layers (like IEEE 802.15.4 MAC )and uses the services of PAL |
| TAL State Machine | The different operating states of the Transceiver are controlled by the TAL state machine |
| TAL Initialization and reset | Performs initialization and reset functionalities of the transceiver |
| TAL Energy Detection | Performs the ED scan functionalities |
| Transceiver Interrupt Handling | Handles Transceiver related Interrupts |
| TAL PIB Storage | The PIB(Pan Information Base) attributes related to the TAL are Stored and handled by the TAL PIB storage |
| TAL Frame Transmission Unit | The Frame Transmission Unit generates and transmits the frames using PAL |
| TAL CSMA/CA Module | Performs channel access mechanism for frame transmission For Detailed information refer CSMA-CA algorithm section of IEEE Std 802.15.4-2006 |
| Slotted CSMA Module | Transmits data using Slotted CSMA/CA mechanism |
| TAL Frame Reception Unit | The Frame Reception Unit reads/uploads the incoming frames |
| AT86RF212 Transceiver Abstraction Layer | The AT86RF212 is a low-power ,low voltage 700/800/900 MHz radio transceiver designed for industrial and consumer ZigBee/IEEE 802.15.4, 6LoWPAN, RF4CE and high data rate sub 1GHz ISM band applications |
| TAL State Machine | The different operating states of the Transceiver are controlled by the TAL state machine |
| TAL Initialization and reset | Performs initialization and reset functionalities of the transceiver |
| TAL Energy Detection | Performs the ED scan functionalities |
| Transceiver Interrupt Handling | Handles Transceiver related Interrupts |
| TAL PIB Storage | The PIB(Pan Information Base) attributes related to the TAL are Stored and handled by the TAL PIB storage |
| TAL Frame Transmission Unit | The Frame Transmission Unit generates and transmits the frames using PAL |
| TAL CSMA/CA Module | Performs channel access mechanism for frame transmission For Detailed information refer CSMA-CA algorithm section of IEEE Std 802.15.4-2006 |
| Slotted CSMA Module | Transmits data using Slotted CSMA/CA mechanism |
| TAL Frame Reception Unit | The Frame Reception Unit reads/uploads the incoming frames |
| AT86RF212B Transceiver Abstraction Layer | The AT86RF212B is a low-power ,low voltage 700/800/900 MHz radio transceiver designed for industrial and consumer ZigBee/IEEE 802.15.4, 6LoWPAN, RF4CE and high data rate sub 1GHz ISM band applications |
| TAL State Machine | The different operating states of the Transceiver are controlled by the TAL state machine |
| TAL Initialization and reset | Performs initialization and reset functionalities of the transceiver |
| TAL Energy Detection | Performs the ED scan functionalities |
| Transceiver Interrupt Handling | Handles Transceiver related Interrupts |
| TAL PIB Storage | The PIB(Pan Information Base) attributes related to the TAL are Stored and handled by the TAL PIB storage |
| TAL Frame Transmission Unit | The Frame Transmission Unit generates and transmits the frames using PAL |
| TAL CSMA/CA Module | Performs channel access mechanism for frame transmission For Detailed information refer CSMA-CA algorithm section of IEEE Std 802.15.4-2006 |
| Slotted CSMA Module | Transmits data using Slotted CSMA/CA mechanism |
| TAL Frame Reception Unit | The Frame Reception Unit reads/uploads the incoming frames |
| AT86RF233 Transceiver Abstraction Layer | The AT86RF233 is a feature rich, low-power 2.4 GHz radio transceiver designed for industrial and consumer ZigBee/IEEE 802.15.4, 6LoWPAN, RF4CE and high data rate sub 1GHz ISM band applications The Transceiver Abstraction Layer (TAL) implements the transceiver specific functionalities and provides interfaces to the upper layers (like IEEE 802.15.4 MAC )and uses the services of PAL |
| TAL State Machine | The different operating states of the Transceiver are controlled by the TAL state machine |
| TAL Initialization and reset | Performs initialization and reset functionalities of the transceiver |
| TAL Energy Detection | Performs the ED scan functionalities |
| Transceiver Interrupt Handling | Handles Transceiver related Interrupts |
| TAL PIB Storage | The PIB(Pan Information Base) attributes related to the TAL are Stored and handled by the TAL PIB storage |
| TAL Frame Transmission Unit | The Frame Transmission Unit generates and transmits the frames using PAL |
| TAL CSMA/CA Module | Performs channel access mechanism for frame transmission For Detailed information refer CSMA-CA algorithm section of IEEE Std 802.15.4-2006 |
| Slotted CSMA Module | Transmits data using Slotted CSMA/CA mechanism |
| TAL Frame Reception Unit | The Frame Reception Unit reads/uploads the incoming frames |
| Static Memory Controller (SMC) | Driver for the Static Memory Controller |
| Related Project(s) | In this section you can find all the projects related to the Static Memory Controller (SMC) |
| Display - AAT31XX Controller | Low-level driver for the AAT31XX LCD backlight controller |
| SIO2HOST - USB | This module performs serial input/output functionalities via USB |
| Digital-to-Analog Converter Controller (DACC) | |
| Related Project(s) | In this section you can find all the projects related to the Digital-to-Analog Converter Controller (DACC) |
| FTM280C34D display using ILI9325 display controller | This is hardware specific configuration that configures the graphical service for use with the ILI9325 display controller and the ET024006DHU display |
| NAND Flash on EBI | See Quick start guide for the |
| Related Project(s) | In this section you can find all the projects related to the NAND Flash on EBI |
| Quick Start Guide(s) | In this section you can find a list of all Quick Start guides related to the NAND Flash on EBI |
| Display - ILI93XX Controller | Low-level driver for the ILI93XX LCD controller |
| Related Project(s) | In this section you can find all the projects related to the Display - ILI93XX Controller |
| Quick Start Guide(s) | In this section you can find a list of all Quick Start guides related to the Display - ILI93XX Controller |
| SAM3A/3U/3X/4E DMA Controller (DMAC) Driver | This driver for Atmel® | SMART ARM®-based microcontrollers provides an interface for the configuration and management of the device's Direct Memory Access DMA Controller (DMAC) functionality |
| Related Project(s) | In this section you can find all the projects related to the SAM3A/3U/3X/4E DMA Controller (DMAC) Driver |
| Class Marks Example | |
| Analog-Front-End Controller | See Quickstart guide for SAM AFEC driver |
| Related Project(s) | In this section you can find all the projects related to the Analog-Front-End Controller |
| Quick Start Guide(s) | In this section you can find a list of all Quick Start guides related to the Analog-Front-End Controller |
| Ethernet Phy | This is the common API for Ethernet Phy on ARMs |
| COMPONENT - Display - HX8347A Controller | Low-level driver for the HX8347A LCD controller |
| Resistive Touch - ADS7843 Controller | Low-level driver for the ADS7843 touch controller |
| Reinforced Safety Watchdog Timer (RSWDT) | Driver for the RSWDT (Reinforced Safety Watchdog Timer) |
| Related Project(s) | In this section you can find all the projects related to the Reinforced Safety Watchdog Timer (RSWDT) |
| Test Suite Framework | This module is the test suite framework, which provides a set of standard functions and macros for defining and running test suites |
| Related Project(s) | In this section you can find all the projects related to the Test Suite Framework |
| pcTaskGetTaskName | Task |
| Serial Standard I/O (stdio) Example | |
| Memory Control Access | Common abstraction layer for memory interfaces |
| Serial Interface Module | This module is responsible for encoding and decoding the serial bytes to/from Host into corresponding MAC APIs |
| CMCC - Cortex M Cache Controller module | The Cortex M Cache Controller (CMCC) is a 4-way set associative unified cache controller |
| Related Project(s) | In this section you can find all the projects related to the CMCC - Cortex M Cache Controller module |
| Quick Start Guide(s) | In this section you can find a list of all Quick Start guides related to the CMCC - Cortex M Cache Controller module |
| Memory Bag Allocator | The Membag allocator is a optimized, fragmentationless general purpose memory allocator utility module designed to replace the standard C library malloc() and free() functions in resource constrained environments |
| USB device descriptors for a single interface | The following structures provide the USB device descriptors required for USB Device with a single interface PHDC |
| Matrix Example | |
| Frequency Bin Example | |
| Watchdog Timer (WDT) | Driver for the WDT (Watchdog Timer) |
| Related Project(s) | In this section you can find all the projects related to the Watchdog Timer (WDT) |
| PHY component (KSZ8081MNX) | Driver for the ksz8081mnx component |
| Port of low level driver for FatFS | Low level driver for FatFS |
| Smart Card Service | The smart card service provides functions for cards supporting ISO7816 protocol |
| Enhanced Embedded Flash Controller (EEFC) | The Enhanced Embedded Flash Controller ensures the interface of the Flash block with the 32-bit internal bus |
| Pulse Width Modulation (PWM) | See Quickstart guide for SAM PWM module |
| Related Project(s) | In this section you can find all the projects related to the Pulse Width Modulation (PWM) |
| Quick Start Guide(s) | In this section you can find a list of all Quick Start guides related to the Pulse Width Modulation (PWM) |
| Variance Example | |
| Security toolbox | The STB (Security Toolbox) is a high level security abstraction layer providing an easy- to-use crypto API for direct application access.It is placed on top of the SAL and abstracts and implements transceiver or MCU dependent functionality that encrypts or decrypts frames usimg CCM according to 802.15.4/Zigbee |
| Group_sal | SAL Security abstraction layer The SAL (Security Abstraction Layer) provides an API that allows access to low level AES engine functions abstraction to encrypt and decrypt frames |
| Graphic Audio Equalizer Example | |
| Real-Time Clock (RTC) | See Quickstart guide for SAM RTC driver |
| Related Project(s) | In this section you can find all the projects related to the Real-Time Clock (RTC) |
| Quick Start Guide(s) | In this section you can find a list of all Quick Start guides related to the Real-Time Clock (RTC) |
| SAM4C/4E/V71/V70/S70/E70 Advanced Encryption Standard (AES) Driver | This driver for Atmel® | SMART ARM®-based microcontrollers provides an interface for the configuration and management of the device's Advanced Encryption Standard functionality |
| Related Project(s) | In this section you can find all the projects related to the SAM4C/4E/V71/V70/S70/E70 Advanced Encryption Standard (AES) Driver |
| Quick Start Guide(s) | In this section you can find a list of all Quick Start guides related to the SAM4C/4E/V71/V70/S70/E70 Advanced Encryption Standard (AES) Driver |
| High Speed MultiMedia Card Interface (HSMCI) | This driver interfaces the HSMCI module |
| High Speed MultiMedia Card Interface | (HSMCI) implementation |
| Group_tal_slotted_csma_231 |
|
| Udi_hid_mtouch_group_udc | |
| Group_tal_pib | |
| Group_tal_tx_212b | |
| TAL CSMA/CA Module | Performs channel access mechanism for frame transmission For Detailed information refer CSMA-CA algorithm section of IEEE Std 802.15.4-2006 |
| Slotted CSMA Module | Transmits data using Slotted CSMA/CA mechanism |
| Group_tal_slotted_csma_233 |
|
| Group_tal_tx | |
| Group_tal_init | |
| Group_tal_rx | |
| Group_tal_irq | |
1.8.5