GNSS Receiver Configuration | Quick Guide
02/12/21 04:12:21 Lượt xem: 377
This training video shows how to configure VeEX's High-Precision Timing-oriented Multiband GNSS Receiver, for test and measurement applications requiring accurate timing, timestamping and geo-tagging, in telecommunication links and services.
- Verify Clock Accuracy and stability - Time Error (TE), Phase Error and Wander Measurements (short and long-term)
- Precision Time Protocol (1588v2 PTP) verification
- One-Way Delay (OWD) end-to-end tests to identify link latency asymmetry over packet, TDM or hybrid networks
- Geotagging test results traceability (e.g. tracking and trend analysis with centralized VeSion R-Server)
- Accurate timestamping for test results (tamper proof)
The optional built-in Global Navigation Satellite Systems (GNSS) receiver card is currently available in single and dual band configurations, both supporting GPS, GLONASS, Galileo and BeiDou constellations. The newest multi-band version supports the 1.2 GHz and 1.6 GHz bands allowing it to have access of up to 8x the number of satellite signals, mitigate multi-path effects and day/night ionospheric variations, offering improved accuracy and stability.
- Precision Time Protocol (1588v2 PTP) verification
- One-Way Delay (OWD) end-to-end tests to identify link latency asymmetry over packet, TDM or hybrid networks
- Geotagging test results traceability (e.g. tracking and trend analysis with centralized VeSion R-Server)
- Accurate timestamping for test results (tamper proof)
The optional built-in Global Navigation Satellite Systems (GNSS) receiver card is currently available in single and dual band configurations, both supporting GPS, GLONASS, Galileo and BeiDou constellations. The newest multi-band version supports the 1.2 GHz and 1.6 GHz bands allowing it to have access of up to 8x the number of satellite signals, mitigate multi-path effects and day/night ionospheric variations, offering improved accuracy and stability.