Home > Press > BeSpoon and Leti Establish World Record Distance Measurement on a Single Chip: Extend Inch-level Accuracy of Impulse Radio Ultra-Wideband To Unparalleled Operation Ranges
 |
Abstract:
BeSpoon and CEA-Leti have demonstrated an IR-UWB integrated circuit able to measure distances within a few centimeters' accuracy, and they have established a world-record operating range at 880m (standard regulation) and 3,641m (emergency situations).
BeSpoon and Leti Establish World Record Distance Measurement on a Single Chip: Extend Inch-level Accuracy of Impulse Radio Ultra-Wideband To Unparalleled Operation Ranges
Grenoble and Le Bourget Du Lac, France | Posted on April 17th, 2013BeSpoon, a fabless semiconductor company, and CEA-Leti have demonstrated an IR-UWB integrated circuit able to measure distances within a few centimeters' accuracy, and have established a world-record operating range at 880m (standard regulation) and 3,641m (emergency situations).
Impulse radio ultra-wideband (IR-UWB) is recognized as an ideal technology for indoor applications, both in terms of accuracy and robustness. It measures distances within a few centimeters' precision and is not affected by walls or people passing by.
The BeSpoon and Leti collaboration overcame two challenges sometimes associated with this technology: the difficulty integrating it on a single chip and its perceived limited operating range.
The chip jointly designed by BeSpoon and Leti features a full-blown IR-UWB CMOS-integrated transceiver that is able to perform accurate distance measurements. The standalone chip (RF front-end and digital base band) is designed for a straightforward integration within smartphones or set-top boxes.
Furthermore, BeSpoon has demonstrated the capability to comply with the strict regulation of IR-UWB, and yet operate up to 880m in line of sight. A world record distance measurement has been established at 3,641 meters, in compliance with the regulation for emergency situations.
"Indoor location is only beginning and, very soon, robustness and precision will be key to offering great new services," said Jean-Marie André, BeSpoon CEO. "Mobile geofencing is another exciting development of our technology."
"This achievement capitalizes on the UWB expertise Leti has developed over the past 12 years," said Laurent Malier, CEO of Leti. "The world record distance measurement is a major milestone in our partnership with BeSpoon, and a source of great satisfaction for the people involved in this collaboration."
####
About CEA-Leti
Leti is an institute of CEA, a French research-and-technology organization with activities in energy, IT, healthcare, defence and security. Leti is focused on creating value and innovation through technology transfer to its industrial partners. It specializes in nanotechnologies and their applications, from wireless devices and systems, to biology, healthcare and photonics. NEMS and MEMS are at the core of its activities. CEA-Leti operates 8,000-m² of state-of-the-art clean room space on 200mm and 300mm wafer platforms. It employs 1,700 scientists and engineers including 320 Ph.D. students and 200 assignees from partner companies. CEA-Leti owns more than 2,200 patent families.
Visit www.leti.fr.
About BeSpoon
BeSpoon is a fabless semiconductor company. We cracked the individual positioning problem. Our chips can track items or individuals within a few centimeters. To achieve that, we measure the time of flight of a ultra wide band signal with a precision of 125 picoseconds! This opens fantastic opportunities to monitor assets, enable precise indoor location and ultimately keep track of all our belongings on our phones. For more information, please visit www.BeSpoon.com
For more information, please click here
Contacts:
Sarah-Lyle Dampoux
Phone: +33 1 70 29 08 59
Copyright © CEA-Leti
If you have a comment, please Contact us.Issuers of news releases, not 7th Wave, Inc. or Nanotechnology Now, are solely responsible for the accuracy of the content.
Bookmark:
| Related News Press |
News and information
Beyond wires: Bubble technology powers next-generation electronics:New laser-based bubble printing technique creates ultra-flexible liquid metal circuits November 8th, 2024
Nanoparticle bursts over the Amazon rainforest: Rainfall induces bursts of natural nanoparticles that can form clouds and further precipitation over the Amazon rainforest November 8th, 2024
Nanotechnology: Flexible biosensors with modular design November 8th, 2024
Exosomes: A potential biomarker and therapeutic target in diabetic cardiomyopathy November 8th, 2024
Chip Technology
Nanofibrous metal oxide semiconductor for sensory face November 8th, 2024
New discovery aims to improve the design of microelectronic devices September 13th, 2024
Groundbreaking precision in single-molecule optoelectronics August 16th, 2024
Nanoelectronics
Interdisciplinary: Rice team tackles the future of semiconductors Multiferroics could be the key to ultralow-energy computing October 6th, 2023
Key element for a scalable quantum computer: Physicists from Forschungszentrum Jülich and RWTH Aachen University demonstrate electron transport on a quantum chip September 23rd, 2022
Reduced power consumption in semiconductor devices September 23rd, 2022
Atomic level deposition to extend Moore’s law and beyond July 15th, 2022
Announcements
Nanotechnology: Flexible biosensors with modular design November 8th, 2024
Exosomes: A potential biomarker and therapeutic target in diabetic cardiomyopathy November 8th, 2024
Turning up the signal November 8th, 2024
Nanofibrous metal oxide semiconductor for sensory face November 8th, 2024
Alliances/Trade associations/Partnerships/Distributorships
Chicago Quantum Exchange welcomes six new partners highlighting quantum technology solutions, from Chicago and beyond September 23rd, 2022
University of Illinois Chicago joins Brookhaven Lab's Quantum Center June 10th, 2022
 |
||
 |
||
| The latest news from around the world, FREE | ||
 |
||
|
|
||
| Premium Products | ||
 |
||
|
Only the news you want to read!
Learn More |
||
 |
||
|
Full-service, expert consulting
Learn More |
||
|
|
||