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Intelligent autonomy at the edge with single-chip millimeter-wave sensors

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High accuracy

Detect up to three times higher spatial and velocity resolution than solutions on the market today.

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Small size

TI’s CMOS single-chip sensors integrate an RF front-end with a DSP and MCU.

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Sensing simplified

Leverage the mmWave SDK to evaluate and enable your sensor project in less than 30 minutes.

Automotive (AWR) mmWave sensors

AWR mmWave solutions enable safer and easier driving experiences by analyzing and reacting to nearby environments.

Industrial (IWR) mmWave sensors

IWR mmWave solutions detect range, velocity and angle of objects with unprecedented accuracy and robustness.

What is mmWave?

mmWave is a sensing technology for detection of objects and providing the range, velocity and angle of these objects. It is a contactless-technology which operates in the spectrum between 30 GHz - 300 GHz. Due to the technology’s use of small wavelengths it can provide sub-mm range accuracy and is able to penetrate certain materials such as plastic, drywall, clothing, and is impervious to environmental conditions such as rain, fog, dust and snow.

mmWave sensors transmit signals with a wavelength which is in the millimeter (mm) range. This is considered a short wavelength in the electromagnetic spectrum and is one of the advantages of this technology. Indeed, the size of system components such as antenna required to process mmWave signals is small. Another advantage of short wavelengths is the high resolution. A mmWave system that resolves distances to wavelength has accuracy in the mm range at 60-64 GHz and 76-81 GHz.

Additionally, operating in this spectrum makes mmWave sensors interesting for the following reasons:

  • Ability to penetrate materials: see through plastic, drywall and clothing.
  • Highly directional: compact beam forming with 1° angular accuracy.
  • Light-like: can be focused and steered using standard optical techniques.
  • Large absolute bandwidths: distinguish two nearby objects.

How antenna-on-package design simplifies mmWave sensing in buildings and factories

Read the white paper to learn how antenna-on-package design simplifies mmWave sensing in buildings and factories

Proximity sensing solutions

Finding it difficult to pick the right proximity sensing technology? Read our infographic to quickly understand the pros and cons of each technology we offer including mmWave and how it can help bring intelligence to your design.

time of flight proximity sensing infogrpahic

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