TriEye has launched the TES200, a 1.3MP SWIR image sensor for machine vision and robotics. See press release below.
TEL AVIV, Israel, September 3, 2024/ – TriEye, pioneer of the world's first cost-effective, mass-market Short-Wave Infrared (SWIR) sensing technology, announced today the release of the TES200 1.3MP SWIR image sensor. Based on the innovative TriEye CMOS image sensor technology that allows SWIR capabilities using a CMOS manufacturing process, the TES200 is the first commercially available product released in the Raven product family.
The TES200 operates in the 700nm to 1650nm wavelength range, delivering high sensitivity and 1.3MP resolution. With its large format, high frame rate, and low power consumption, the TES200 offers enhanced sensitivity and dynamic range. This makes the new image sensor ideal for imaging and sensing applications across various industries, including automotive, industrial, robotics, and biometrics.
"We are proud to announce the commercial availability of the TES200 image sensor. Our CMOS-based solution has set new standards in the automotive market, and with the rise of new Artificial Intelligence (AI) systems, the demand for more sensors and more information has increased. The TES200 now brings these advanced SWIR capabilities to machine vision and robotic systems in various industries,” said Avi Bakal, CEO of TriEye. “We are excited to offer a solution that delivers a new domain of capabilities in a cost-effective and scalable way, broadening the reach of advanced sensing technology."
The TriEye Raven image sensor family is designed for emerging machine vision and robotics applications, incorporating the latest SWIR pixel and packaging technologies. The TES200 is immediately available in sample quantities and available for production orders with delivery in Q2 2025.
Experience the TES200 in Action at CIOE and VISION 2024
We invite you to explore the advanced capabilities of the TES200 at the CIOE exhibition, held from September 11 to 13, 2024, at the Shenzhen World Exhibition and Convention Center, China, within the Lasers Technology & Intelligent Manufacturing Expo. View the demo at the Vertilas booth no. 4D021, 4D022. Then, meet TriEye’s executive team at VISION 2024 in Stuttgart, Germany, from October 8 to 10, at the TriEye booth no. 8A08, where you can experience a live demo of the TES200 and the brand new Ovi 2.0 devkit, and learn firsthand about our latest developments in SWIR imaging.
About TriEye
TriEye is the pioneer of the world’s-first CMOS-based Short-Wave Infrared (SWIR) image sensing solutions. Based on advanced academic research, TriEye’s breakthrough technology enables HD SWIR imaging and accurate deterministic 3D sensing in all weather and ambient lighting conditions. The company's semiconductor and photonics technology enabled the development of the SEDAR (Spectrum Enhanced Detection And Ranging) platform, which allows perception systems to operate and deliver reliable image data and actionable information, while reducing expenditure up to 100x the existing industry rates. For more information, visit www.trieye.tech
what is the pixel size? and is there a price magnitude yet? i mean this seems to be the main selling point, right? whats the % magnitude compated vs the ingaas competition?
ReplyDeletehttps://trieye.tech/raven/ 1236x960, 7u
ReplyDeleteany info on QE or readout noise ?
ReplyDeletewhat are basic imaging performance parameters such as dark current, readout noise ?
ReplyDeleteso... how much
ReplyDeleteAny info on NEI, QE or e noise ?
ReplyDeletewhat are the imaging performance parameters please?
ReplyDeletefrom their website: dark current 100pA/pixel=625Me/pixel/s. FWC=440000e
ReplyDeleteDark current 100 pA per pixel (7*7 um). Would it be possible to see any picture?
ReplyDeletedark current 100pA/pixel
ReplyDeleteYou are cordially invited to view the impressive visuals of the TES200 at the upcoming Vision Show in Stuttgart. Additionally, our website provides extensive resources, including images and whitepapers, for your reference.
ReplyDeleteThe TriEye team ❤️
Dear TriEye, could you please confirm this : dark current 100pA/pixel and FWC = 440000e- ?
ReplyDeleteThese values have been given in their product flyer.
DeleteI think that the point of the question is that with those values, a pixel would be saturated with dark current only in less than 1 millisecond. I would assume this is an error/typo in their datasheet.
DeleteThen the max exposure time will be limited to a few tens of microseconds otherwise the wells will be filled by dark current. Am I right ?
ReplyDeleteI think that they operate this sensor with very short exposure time under a pulsed laser illumination.
ReplyDeleteIn this case it is not passive SWIR imaging - how can it be used in machine vison applications ?
DeleteThey present great passive images - in day time.
DeleteMost MV application are with active illumination. So this solution is fantastic if you want cost effective SWIR sensing... And as far as I know, they are the only available supplier. Not a science project.
Then how does it compare with QD both price and performance ?
DeleteYou illuminate your workshop with a strong 1550nm laser lamp ... it's eye-safe!
ReplyDeleteIn daytime, with Sun shine, the exposure time is normally under 100us. Of course in this case, you remove digitally the dark current contribution and can obtain nice image. Low sensitivity and low cost devices have no future.
ReplyDelete