GNSS receivers achieve 4.5ns stability

March 26, 2019 //By Jean-Pierre Joosting
GNSS receivers achieve 4.5ns stability
Furuno Electric Co., Ltd., has developed the GT-88 and GF-8801/02/03/04/05 GNSS timing modules for users who require UTC time-synchronized signals to meet the latest 5G requirements.

The modules provide UTC time-synchronized timing signals (1PPS/10-MHz) by receiving GNSS satellite signals. Achieved stability is better than that of an atomic clock, including a rubidium. The GT/GF-88 series includes a brand-new algorithm, named Dynamic Satellite Selection™ that provides outstanding multipath mitigation, especially in urban canyon environments. This algorithm was developed by Nippon Telegraph and Telephone Corporation (NTT) based in Tokyo, Japan.

The modules deliver extremely high stability of 4.5ns (1 sigma), only requiring reception of the L1 band (1575.42 MHz) frequency GNSS satellites. This was achieved by improving advanced position estimation algorithms and optimizing position calculation among several different GNSS satellite constellations. It enables users to achieve 5G-required performance without any changes to existing single-band GNSS antennas.

The modules incorporate Dynamic Satellite Selection™, an advanced multipath mitigation algorithm developed by NTT. Normally typical time synchronization performance deteriorates in urban canyon environments by the effect of multipath. Dynamic Satellite Selection™ reduces this time error by one-fifth. This provides more flexibility when installing GNSS antennas. Consequently, the GT/GF-88 series now permits GNSS antennas to be mounted on walls, windows of tall buildings and other difficult reception environments.

The GT/GF-88 series continues to support GPS, GLONASS and QZSS satellite constellations, and now adds Galileo support. As the total number of satellites available increases, operational stability also increases.

www.furuno.com


Vous êtes certain ?

Si vous désactivez les cookies, vous ne pouvez plus naviguer sur le site.

Vous allez être rediriger vers Google.