混合动力、电动动力传动系统

Driving vehicle electrification forward.

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As the world drives toward vehicle electrification, semiconductors enable automakers to optimize performance, accelerate development and make electric vehicles (EVs) more affordable for more people. Advancements in EV and powertrain design are driven by the need to reduce emissions, decrease weight and boost efficiency to help keep drivers on the road longer. We are dedicated to providing the right analog and embedded processing products and in-depth support you need to design next-generation electrified cars.

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Why choose 老金沙9170下载for your HEV/EV powertrain systems?

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Extend drive range

Maximize drive range between charges with accurate measurement of state of charge of the battery and create new powertrain architectures to reduce weight and size of the vehicle.

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Enhance safety

Improve system reliability with robust, high-performance devices able to withstand high-voltage transient and hot-plug events, while upholding electromagnetic compatibility.

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Enable faster charging

Achieve faster charging on and off the grid with high-performance topologies to address higher DC voltage needs in a smaller form factor and better system-level efficiency through improved EMI.

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Make EVs more affordable

Drive design-to-cost optimization with flexibility to scale across platforms with portfolios of pin-to-pin compatible devices to support different cell chemistries and vehicle architectures.

Enabling technologies

Streamline your functional safety system certification

Meet the rigorous requirements of functional safety standards, such as ISO 26262, with our analog and embedded processing products. In addition to our functional safety-certified engineers, available documentation and resources such as functional safety Failures In Time (FIT) rate, Failure modes, effects, and diagnostic analysis (FMEDA), safety certificates and software diagnostics libraries help you streamline the certification process.

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白皮书
《了解符合 IEC 62380 和 SN 29500 的功能安全时基故障基本故障率估算》
Systematic and random hardware failures need to be addressed to achieve functional safety compliance. Learn about two techniques for estimating the base failure rate (BFR) required to calculate quantitative random hardware.
document-pdfAcrobat PDF
白皮书
简化汽车和工业中的功能性安全认证
Whether you are designing for the factory floor or the highway, this white paper explains how we approach designing integrated circuits (ICs) and provides the resources needed to streamline your functional safety design.
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Automakers are continuing to make progress in reducing CO2 emissions, and at 老金沙9170下载, we are helping to reduce vehicle emissions through greater vehicle electrification. Together, we engineer a more sustainable world of transportation.
– Mark Ng | Texas Instruments HEV/EV Powertrain Sector General Manager
| 公司博客
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技术资源

白皮书
白皮书
掌管电动汽车 – 从车辆的角度和电网的角度 (Rev. A)
Read this white paper to learn about taking charge of electric vehicles, both in the vehicle and on the grid.
document-pdfAcrobat PDF
资源
资源
老金沙9170下载touts solid-state relays to enable safer EVs
All About Circuits article discusses how new two solid-state relays chips are designed to replace traditional automotive mechanical relays to improve isolation technology. 
资源
资源
Making electronics more affordable through semiconductors
Learn how we are enabling EV systems that are more efficient, reliable and affordable in John Shegerian's latest podcast with Pradeep Shenoy.

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