In this training series, we demonstrate how to use the PRU-ICSS subsystem on a Sitara processor to interface between multiple SAR ADCs using SPI.
To help explore infinite design possibilities with TI Sitara™ ARM® Processors, Texas Instruments has created the Sitara ARM Processors Boot Camp. This modular training series for TI’s Sitara ARM Processors is based on the latest development kits from TI and provides in-depth technical discussion and hands-on exercises for all aspects of the solution; from architecture to peripherals to software and development environments.
This training series provides an introduction to voice recognition and some of the basic concepts of audio systems that use voice as a user interface. It provides a guide to required components and how they match to embedded processors and other devices available from Texas Instruments. And it takes a look at the software, tools, designs, and demonstrations available from TI for building your own voice recognition and processing application.
This training series provides an in-depth look at KeyStone multicore SoC devices.
Programmable Real-Time Unit and Industrial Communications Subsystem (PRU-ICSS / PRU-ICSSG) Training Series
The Programmable Real-Time Unit and Industrial Communications Subsystem (PRU-ICSS / PRU-ICSSG) is a small processor that is tightly integrated with an IO subsystem, offering low-latency control of IO pins on TI’s SoC devices including the AM335x, AM437x, AM57x, and AM65x Sitara Processors. The PRU-ICSS / PRU-ICSSG is customer-programmable and can be used to implement simple and flexible control functions, peripherals, and state machines that directly access IO pins of the device, as well as can communicate with the application cores.
TI’s AM6x Sitara processor family, along with the Processor SDK, brings unparalleled scalability, reliability, integration, and ease-of-use to the Sitara product line. The new, highly-integrated Sitara AM6x processor family provides industrial-grade reliability, with quad and dual Arm® Cortex®-A53 core variants built to meet the rapidly evolving needs of Industry 4.0 in factory automation and grid infrastructure.
Similar to existing KeyStone-based SoC devices, the 66AK2Gx enables both the DSP and ARM cores to master all memory and peripherals in the system. This architecture facilitates maximum software flexibility where either DSP- or ARM-centric system designs can be achieved.
This curriculum provides an in-depth look at the K2G Processors, Processor SDK-Linux and TI-RTOS, and the Programmable Realtime Unit (PRU).
TI’s AM57x family, along with the Processor SDK, brings unrivaled integration, scalability, peripherals and ease of use associated with the powerful Sitara processor platform. Sitara AM57x processors' unique heterogeneous architecture including ARM® Cortex®-A15 cores, C66x DSPs, programmable real-time units (PRU), ARM Cortex-M4 cores, and video and graphic accelerators make the AM57x processors unmatched in their class.
TI provides key runtime software components and documentation to further ease development. TI’s online training provides an introduction to the Processor SDK and how to use this software to start building applications on TI embedded processors.
Creating a Robust Interface Between J6 and FPD-Link .
TI’s AM437x processors, along with the Processor SDK, deliver unrivaled integration, scalability, peripherals and ease of use associated with the powerful Sitara processor platform. The Sitara AM437xx processor architecture includes ARM® Cortex®-A9 cores, programmable real-time units (PRU), video and graphic accelerators, and customer-programmable secure boot make the AM437xx processors unmatched in their class.
Although motor drives have been around for many years, trends in Industry 4.0 such as TSN, industrial IoT, and functional safety are revolutionizing the role a drive takes in the Smart Factory. Where typically its main function was to drive a motor, a servo drive now must include other features to conform with the needs of Industry 4.0. This paired with the rapid growth of the robotics market has created a need for Smart Servo drives with multi-axis capabilities.