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Selecting the right wireless connectivity technology is a critical design decision from the beginning. This determines the protocol interoperability, distance, robustness and the use-cases for your application. This selection guide will walk you through several key decision requirements starting with the table below as a high-level summary of various wireless connectivity technologies.

This reference design implements a cost-optimized high EMC immunity EtherCAT slave (dual ports) with SPI-interface to the application processor.

The TCAN1044AEV-Q1 is a high-speed controller area network (CAN) transceiver that meets the physical layer requirements of the ISO 11898-2:2016 high-speed CAN specification.

Industrial communication is typically handled by the Programmable Real-Time Unit Industrial Communication Subsystem (PRU-ICSS) in Sitara processors and microcontrollers (MCUs). The PRU-ICSS is a co-processor subsystem containing Programmable Real-Time (PRU) cores and Ethernet media access controllers (EMACs), which implement the low level industrial Ethernet and fieldbus protocols through firmware.

The AMC1306 is a precision, delta-sigma (ΔΣ) modulator with the output separated from the input circuitry by a capacitive double isolation barrier that is highly resistant to magnetic interference.

The SimpleLink 2.4 GHz CC2662R-Q1 device is an AEC-Q100 compliant wireless microcontroller (MCU) targeting wireless automotive applications. The device is optimized for low-power wireless communication in applications such as battery management systems (BMS) and cable replacement.

Here, you’ll find a selection of the latest news, products, and articles from Texas Instruments focused on Control Drive.

Here, you’ll find a selection of the latest news, products, and articles from Texas Instruments focused on High Voltage.

Written by op amp experts Art Kay and Tim Green, theAnalog Engineer's Pocket Referencecovers a wide variety of popular precision signal chain topics – from op amp bandwidth and stability to analog-to-digital and digital-to-analog conversions and more.

The demands of high-voltage systems have evolved significantly, driven by the need for increased power levels and the growing complexity of modern power systems. Meeting these demands effectively necessitates a realtime MCU or digital power controller capable of controlling advanced power topologies optimized for nuanced specifications and various power requirements simultaneously