Spirent Launches New Multi-Frequency GNSS Record and Playback System
6 June 2013
Spirent Communications announced the launch of the Spirent GSS6425 multi-frequency GNSS record and playback (RPS) test system. It provides customers with RF recordings for more constellations (GPS, GLONASS, Galileo, BeiDou, QZSS), more frequencies (L1, L2, L5), wider bandwidth (30MHz) and more features to support a wide range of positioning and timing test applications.
Spirent’s product is unique in that it is self-contained
and portable, allowing users to record and playback data
in the field without the need for an additional PC or
external power. With the GSS6425, it is simple to
faithfully capture and replay complex signal conditions,
such as urban environments, indoor spaces like airport
terminals, and dense forests. Multiple environments can
be brought into the lab and replayed in a repeatable and
controlled manner, helping developers improve receiver
and system performance.
“Customers have told us they want to record multi-GNSS signals simultaneously, for example GPS, GLONASS and BeiDou,” said Rahul Gupta, product manager for Spirent's Positioning division. “They have also told us that capture and playback of other data, such as inertial or vehicle CAN bus is needed. The GSS6425 enables all this in a very capable, yet easy-to-use and self-contained unit.”
With the GSS6425, users can select and record three GNSS frequency bands at any one time, each with up to 30MHz bandwidth. If more than three concurrent channels are required, two GSS6425 units can be synchronized in a master and slave configuration. For example, survey-grade receiver developers can capture GPS L1, L2 and L5 signals, GLONASS L1 and L2, plus satellite-based augmentation system (SBAS) signals such as StarFire or OmniSTAR.
The GSS6425 is also capable of recording additional sources including inertial and dead reckoning sensor outputs and vehicle CAN bus data. Data can be time-stamped and stored in the GNSS data file, ensuring synchronized playback. The GSS6425 can also record the GPS receiver 1pps (pulse per second) output for synchronization purposes. These features are particularly useful in developing hybrid receivers such as for automotive and indoor positioning applications.