English

 

 

HUBER+SUHNER develops antennas for all automotive radars including long, mid, short range radars and corner radars. It specialises in the design and manufacturing of fully customised mm-Wave products using metallised injection moulded parts.

3D WAVEGUIDE ANTENNA - 140 GHZ Family

The first demonstrator radar antenna developed to prove the superior 3D waveguide MIMO antenna performances at 140 GHz.

  • 3D printing for fast prototyping
  • Low weight due to metalized plastic components
  • High radiation efficiency (>85 %)
  • Broadband performance (e.g. 133-145 GHz)
  • Scalable to 120 GHz

3D WAVEGUIDE ANTENNA - ALL RADAR APPLICATION TYPES Family

HUBER+SUHNER is the leading supplier for 3D Waveguide Metallized Plastic Antennas which are revolutionising the automotive radar market.

3D WAVEGUIDE ANTENNA - IMAGING RADAR Family

HUBER+SUHNER 3D metallized plastic antennas are part of the next generation of imaging radars. Its low loss characteristics are crucial to providing an antenna array with a highly sparse location of elements over large apertures.

  • Supports very large antenna aperture
  • Enables very sparse antenna array configuration
  • Qualify for digital radar

3D WAVEGUIDE ANTENNA - RAPID PROTOTYPING Family

HUBER+SUHNER offers a broad set of additive manufacturing technologies for quick and reliable design-in.

  • 3D printing
  • Soft / rapid injection moulding tooling
  • Dedicated coating
  • Advance engeneering for field demonstration purpose

3D WAVEGUIDE ANTENNA - RF SUBSTRATE INDEPENDENT SOLUTION Family

The first 3D metallized plastic waveguide antenna RF substrate independent solution is pioneered at HUBER+SUHNER. The proprietary interface allows the direct RF coupling to the radar MMIC, improves the overall power transmission and reception performances, enabling the use of any substrate for the radar PCB board.

  • No need for high frequency / high performance RF substrate (PCB)
  • Low weight due to metalized plastic components
  • Manufacturing process accuracy  
  • Cost efficiency & scalability due to tool based inline production
  • Low losses (<< 8-10dB/meter)
  • Broadband performance (e.g. full coverage of 76-81 GHz)