NEO-F9P USB dongle receiver with SMA antenna connectors, for your UDR systems, UAV systems, Robots, RC, FPV or other projects.
NEO-F9P High Precision GNSS USB dongle with SMA antenna connectors. Multi-band receiver delivers centimeter-level accuracy in seconds.
The NEO-F9P positioning module features the new u-blox receiver platform, which provides multi-band GNSS to high volume industrial applications in a compact form factor. NEO-F9P is a multi-band GNSS module with integrated u-blox multi-band RTK technology for centimeter-level accuracy. The module enables precise navigation and automation of moving industrial machinery by means of a small, surface mounted module.
The NEO-F9P module is designed for easy integration and low design-in costs with minimal e-BOM. It is well-suited for mass market adoption, thanks to its small package size, light weight, and small power consumption. ZED-F9P ensures the security of positioning and navigation information by using secure interfaces and advanced jamming and spoofing detection technologies.
NEO-F9P offers support for a range of correction services allowing each application to optimize performance according to the application’s individual need.
NEO-F9P USB dongle features:
- 184-channel u-blox F9 engine GPS L1C/A L5, GLO L1OF, GAL E1B/C E5a, BDS B1I B2a, QZSS L1C/A L1S L5, SBAS L1C/A NavIC L5
- On-board low noise 3.3V voltage regulator
- USB interface type A connector
- SMA antenna connectors
- Support active antenna
- u-center ublox Evaluation Software
- Extensive visualization and evaluation features
- Backup supercapacitor
- Dimensions with connectors: 75x25x13 mm
- Weight: 16.5 gr.
- Fully assembled and ready to use
NEO-F9P Features:
Receiver type:
- 184-channel u-blox F9 engine
- GPS L1C/A L5, GLO L1OF
- GAL E1B/C E5b, BDS B1I B2I
- QZSS L1C/A L1S L5, SBAS L1C/A
- NavIC L5
Nav. update rate:
Position accuracy:
- RTK 0.01 m + 1 ppm CEP
- SPARTN Horizontal pos. accuracy – 0.06m, vert -0.12m
Convergence time:
- RTK < 10 sec
- Acquisition Cold starts 27 s
- Aided starts 3 s
- Reacquisition 4 s
Sensitivity: