First 240 GHz single-chip silicon radar transceiver
This latest transceiver builds upon the success of indie’s previously released 120 GHz offering, expanding its portfolio of short-range, high precision and high resolution terahertz frequency radar solutions.
As a complement to the well deployed use of 76 GHz to 81 GHz radar for long range automotive sensing, recent safety initiatives such as European New Car Assessment Program (Euro NCAP) are driving the use of 120 GHz terahertz frequency radar for in-cabin driver and occupant monitoring due to its higher resolution. The higher frequency-enabled superior precision of 240 GHz radar is being leveraged for new and rapidly emerging vehicle dynamics and monitoring applications, including assessment and control of air spring-based suspension settings, real time road surface quality and hazard assessment to dynamically adapt ride quality, and even fine grade monitoring of gas tank levels.
In addition to the growing automotive market opportunity, the resolution and bandwidth benefits of 240 GHz radar are also applicable to industrial sensing applications including material thickness measurement and analysis, end of line product quality, tank level monitoring (now accelerated through recent EU regulation), surface inspection and security scanners. indie’s 240 GHz solution can readily address these industrial terahertz frequency applications, which Mordor Intelligence estimates will be a $1.8 billion electronics opportunity by 2028.
“The launch of our 240 GHz transceiver marks a significant leap forward in radar technology,” Dr. Peter Gulden, SVP of indie Semiconductor’s Radar Systems and Software. “We are offering a solution that not only enhances safety within vehicle cabins but also revolutionizes industrial monitoring applications. Our latest high frequency radar is a game-changer in resolution, integration and system cost.”
The TRA240091 is a cascadable radar front-end with an operating bandwidth of up to 45 GHz at 240 GHz. These unique features enable extremely high-resolution which is ideal for applications within the license free 244 – 246 GHz ISM band and beyond.