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ActLight Announces to Have Reached Single-Photon Sensitivity With its Low Voltage Dynamic PhotoDetector

ActLight
2018-09-20 17:45 1405

LAUSANNE, Switzerland, Sept. 20, 2018 /PRNewswire/ --

ActLight, a Swiss technology firm known for its breakthrough Dynamic PhotoDiodes (DPDs), announced today that the results of internal tests performed on its most recent technology developments show a device sensitivity that reached the single photon level.

Moreover, the tests confirmed that the sensitivity of the DPD is tunable (i.e. at 2, 3, 5 or 7 photons) with very positive impact on the dynamic range of the device. Important to note is that the brilliant results were achieved at 1.5V bias voltage and with devices manufactured using a standard CMOS 180nm technology.  

"It's great that today we are among a selected few innovative technologies to have a talk at the Imaging & Sensors Summit, a great opportunity to present our recent developments in the low voltage single photon sensitivity," said Serguei Okhonin, ActLight Co-Founder and CEO. "And we strongly believe that our DPDs can inspire innovation and enhance user experience in main stream applications such as smartphones and others."

About ActLight SA 

ActLight SA, the start-up company founded in 2011 and based in Lausanne - Switzerland, focuses on the field of CMOS photonics by developing a new type of photodetector, the Dynamic PhotoDiode (DPD). Being a fabless company, ActLight specializes in the Intellectual Property (IP) of this area and operates primarily in the IP licensing business model.

The patented CMOS-based photonics technology allows the substantial improvement of the efficiency and accuracy of various light sensing applications, such as Time-Of-Flight (TOF) based range meters, vital signs monitoring, 3D/2D cameras and much more. ActLight operates in the Internet of Things (IoT) market, with a focus on mobile and wearable devices, healthcare/medtech, autonomous driving, drones and robotics.

More info about ActLight available at http://www.act-light.com

Source: ActLight
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