Line of Business: OEM spectral sensing and imaging

Category of All Services: Custom Optical Coatings

Industries of Business Coverage:

  • Aerospace & Defense
  • Biomedical & Life Sciences
  • Agriculture & Food
  • Art & Cultural Heritage

Pixelteq’s Long-Term Vision

  • We strive to improve the quality of life by implementing novel solutions in optical sensing and imaging.

Pixelteq Strategy

  • Applying our unique PIXELTEQ micro-patterned filter technology, we aim for technology leadership in existing and emerging industrial, bio-sensing and remote sensing markets.

Pixelteq Culture

  • In line with our Quality policy, we strive to do it right the first time by fulfilling PIXELTEQ’s vision and mission through a commitment to compliance with ISO 9001 and continuous improvement of our Quality Management System.

Business Strengths & Features:

  • Patented microlithography process for precision micro-patterning of spectral filters and optical coatings
  • Advanced coating platforms enable optimization of precision/throughput requirements
    • Ion beam sputtering
    • Magnetron sputtering
    • Ion assist evaporation systems
  • OEM scalable volume manufacturing to millions of units per month
  • Optical-grade class 100 and 1,000 clean rooms
  • Online process monitoring and control systems
  • Automated, high volume spectral analysis equipment to ensure consistency and quality
  • Experienced staff of thin film coating engineers, optical designers and electro-optical specialists
  • In-house environmental testing for humidity, temperature, shock, vibration and acoustics

Categories of All Products

Multispectral Cameras, Spectral Sensors, Micro-Patterned Filters, Optical Filters

Featured Products 

  • Micro-Patterned Filters – PIXELTEQ micro-patterned optical coatings combine patented microlithography expertise with state-of-the-art coating technology to enable smaller and simpler optical designs for portable or complex optical systems. For more details, click here.

  • PixelSensor™ – PixelSensor™ multispectral sensors use exclusive on-chip filtering to pack up to 8 wavelength-selective photodiodes into a compact 9x9mm array format for simpler and smaller optical devices. One PixelSensor replaces multiple components, helping OEMs shrink multi-wavelength instruments for applications including in vitro diagnostics, biochemical assays and colorimetry applications. For more details, click here.

  • SpectroCam™ – SpectroCam™ multispectral cameras deliver live processed images of 6-8 spectral bands at full-frame resolution and rates up to 25 frames per second. Configure SpectroCam™ for your application, using standard and custom interchangeable optical filters. Available in ultraviolet (UV), visible (VIS), and short-wave infrared (SWIR) versions, SpectroCam™ cameras incorporate high-sensitivity image sensors. For more details, click here.

  • PixelCam™ – PixelCam™ multispectral cameras provide live imaging of 3-9 spectral bands at video rates. Simultaneous multi-channel “snapshot” acquisition delivers rich, real-time data without scene change or pixel shift. Custom dichroic filter arrays are integrated into the focal plane array at wafer-level to create robust linear and area sensors that extract high-contrast spectral information at specific visible and infrared wavelengths. This breakthrough technology enables easy integration into handheld, mobile and aerial cameras – all with the same frame rate, size, weight, and power consumption as monochrome cameras. For more details, click here.

  • Optical Filters – The heart of PIXELTEQ is precision optical coating – with decades of thin film engineering experience and a portfolio of advanced optical coating platforms to match your performance, throughput and cost requirements. We have stock filters available or you can also consult with our applications engineers to have custom filters created. For more details, click here.

Authentications & Qualifications

ISO 9001:2008 Certified / ITAR Registered

For Enquiries:

E-mail: info@pixelteq.com

Website: www.pixeletq.com