Many industries have delayed the use and adoption of sensorless FOC motor techniques because of the lack of motor control system knowledge, despite the many system benefits these techniques provide.

With the ability to identify, tune and control any type of three-phase, synchronous or asynchronous motor in just minutes, TI's low-cost Piccolo F2802x MCUs with InstaSPIN-FOC are ideal for a variety ...

Can microcontroller run AI directly on the device? They reduce delay, and support motor control and other embedded system functions.

Texas Instruments (TI) and Nvidia are collaborating on new semiconductors that will accelerate the path from simulation to the deployment of humanoid robots. Under the deal, TI’s real-time motor ...

TI's integrated TinyEngine NPU can run AI models with up to 90 times lower latency and more than 120 times lower energy ...

Motion control may be one of those things that can easily be taken for granted in industrial automation and robotic systems, but it's traditionally complex to program. That's why Texas Instruments has ...

Today, Texas Instruments Incorporated (TI), unveils a free, interactive online simulation tool that enables motor designers to assess TI's InstaSPIN-field-oriented-control (FOC) technology. This ...

As part of the partnership, TI has developed a sensor fusion system that integrates its mmWave radar technology with the ...

Last year Texas Instrument’s (TI) acquired Luminary Micro and its Stellaris line of ARM Cortex-M3 microcontrollers. The Brushed DC Motor Control Reference Design Kit (Fig. 1) provides variable speed ...

Designing robots requires precision and flexibility. When creating a humanoid robot system, there are mechanical and electrical considerations that you need to understand before beginning the actual ...