Three development stages for next-generation automotive power solutions

In the first phase of the collaboration, Delta will focus on developing a lighter, lower cost 11kW on-board charger using Texas Instruments’ new C2000™ real-time microcontroller (MCU) and Texas Instruments’ proprietary active electromagnetic interference (EMI) filtering product. By leveraging products from Texas Instruments, the two companies have combined to reduce the size of chargers by 30 percent while achieving up to 95 percent power conversion efficiency.

PVD164A2059-3BHE014340R2059 In the second phase, Texas Instruments and Delta will integrate the new C2000 real-time MCU into automotive applications to help automakers achieve the ASIL D automotive safety integrity level. The highly integrated automotive isolated gate driver will further enhance the power density of the on-board charger while minimizing the size of the overall solution.

In the third phase, the two companies will leverage TI’s more than a decade of experience in the development and manufacturing of gallium nitride (GaN) technology to collaborate on next-generation automotive power solutions.

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Thanks to the rapid development of automotive electronics, vehicles are richer, more efficient and safer. At present, Texas Instruments already has more than 7,000 automotive grade products, and is constantly strengthening the pace of new product advancement. Texas Instruments provides continuous innovation and systems expertise to help customers extend range, make electric vehicles more affordable, enable faster charging and improve safety.

PVD164A2059-3BHE014340R2059 About Texas Instruments (TI)

Texas Instruments (TI) (NASDAQ: TXN) is a global semiconductor company that designs, manufactures, tests, and sells analog and embedded processing chips for markets including industrial, automotive, personal electronics, communications equipment, and enterprise systems. We are committed to making electronic products more economical and practical through semiconductor technology, and making the world a better place. Today, each generation of innovation builds on the last, making our technology smaller, faster, more reliable, and more affordable, enabling the widespread use of semiconductors in electronics and driving engineering progress.