It is easier to obtain optimal GNSS positioning performance with high accuracy | Heisener Electronics
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It is easier to obtain optimal GNSS positioning performance with high accuracy

Post Date: 2021-12-10 , U-Blox America Inc.
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   U-blox introduces a range of products and functional additions that simplify reliable centimetre positioning accuracy for the industrial navigation and robotics markets. The upgraded ZED-F9P High-precision GNSS receiver module and corresponding NEO-D9S and NEO-D9C GNSS correction data receivers provide customers with unmatched flexibility, including robotic lawn mowers, drones and semi-automatic or fully automatic machinery to build scalable solutions for their specific use cases.

   The software-upgraded ZED-F9P-04B high precision GNSS receiver is the first to support secure SPARTN GNSS correction data formats. The new calibration service receivers provide extensive geographic coverage across Europe, the continental United States and Japan. In addition, the NEO-D9S is seamlessly connected to two new GNSS correction service receiving modules to receive correction data from communications satellites: the NEO-D9S will initially cover the European and US markets before being rolled out to the rest of the world. Meanwhile, neo-D9C will cover Japan.

   The NEO-D9S adopts SSR SPARTN data format to receive correction data on the SATELLITE L-band channel. It leverages cryptography to securely provide PPP-RTK GNSS correction data, as provided by its PointPerfect service.

   Neo-d9c uses the free CLAS broadcast provided by the Japanese Quasi Zenith Satellite System (QZSS) constellation on the L6 band channel in mainland Japan.

   While its GNSS receiver is designed to work with most correction services on the market, pairing the ZED-F9P with a NEO-D9C or NEO-D9S correction data receiver allows customers to save on data transfer costs and operational effort.

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