A complete RTK rover and base solution
The FJD Trion V10a Rover and Base Set combines two compact GNSS receivers for surveyors, construction teams, engineers and mapping professionals who need accurate positioning from their own local RTK base. One receiver can transmit corrections from a known or calculated base position while the second is used as the rover in the field.
This setup is especially practical on construction sites, rural projects and temporary survey locations where correction-network coverage is unavailable, inconsistent or unsuitable for the required workflow. It also gives the operator direct control over the base location and radio connection.
Visual guidance for clearer stakeout work
The V10a uses forward-facing and downward-facing 5 MP cameras to support augmented-reality stakeout. Instead of relying only on arrows, distances and coordinate values, the operator can follow visual guidance displayed over the live camera image. This makes it easier to understand where a point lies in relation to the surrounding site.
For construction layout, the visual workflow can help workers approach design points more intuitively and reduce repeated movement around the target. CAD information can also be shown in the field view, allowing surveyors and site personnel to compare the planned layout with visible site conditions before marking or checking a point.
Measure accurately without keeping the pole perfectly vertical
Integrated IMU tilt compensation allows the survey pole to be tilted by up to 60°. The receiver automatically compensates for the pole angle so the measured coordinate represents the pole-tip position rather than the receiver position above it.
In daily fieldwork, this means points can be collected beside walls, underneath vegetation, close to parked machinery and around other obstacles without repeatedly adjusting the pole until it is exactly level. It can also speed up topographic surveys and construction checks where many individual points must be measured during the day.
Multi-constellation GNSS tracking
With 1,408 tracking channels, the V10a is designed to use signals from several satellite constellations, including GPS, GLONASS, Galileo and BeiDou. It also supports regional and augmentation systems such as QZSS, IRNSS and SBAS.
Access to multiple constellations gives the receiver more satellite observations to work with. This is valuable near buildings, trees and other partial obstructions where parts of the sky may be blocked. Actual positioning performance will always depend on satellite visibility, correction quality, radio conditions and the local measuring environment.
Flexible correction and communication options
The integrated UHF radio supports direct communication between the base and rover. This enables an independent RTK setup without requiring both receivers to maintain a mobile-data connection. The available working distance depends on terrain, antenna placement, radio configuration, interference and local regulations.
An integrated 4G modem also supports internet-based correction services and remote data communication where a suitable SIM card and mobile network are available. Wi-Fi, Bluetooth and NFC provide additional options for connecting controllers, transferring data and pairing equipment. A connection for an external radio is available for workflows that require a different radio arrangement.
Designed for daily outdoor use
Each V10a receiver has a diameter of approximately 130 mm, a height of 68 mm and a weight of around 800 g. The compact housing makes the receivers easier to carry between control points and reduces the weight at the top of the survey pole.
The IP68-rated enclosure protects the equipment against dust and water ingress, while the housing is designed to withstand a two-metre pole drop. This makes the set suitable for normal outdoor surveying and construction conditions, including rain, dust, mud and frequent transport between sites.
Long working time and practical charging
The built-in battery is rated for up to approximately 15 hours of rover operation or 10 hours of base operation under normal stated conditions. Static observation time can exceed 25 hours. Actual operating time varies with radio use, mobile connectivity, camera use, temperature and other settings.
USB-C charging with 30 W Power Delivery support simplifies charging between jobs. The receiver can also accept an external 9–28 V DC power supply, which is helpful when the base must remain active for longer survey sessions.
Applications for the FJD Trion V10a set
The rover and base set is suitable for cadastral and boundary surveys, topographic data collection, construction layout, utility mapping, road and bridge projects, earthworks, river surveys and coastline measurements. GIS teams can use it to capture accurate asset positions, while drone operators can use surveyed control and check points to support mapping projects.
For construction workers who do not use GNSS equipment every day, the camera-assisted stakeout view can make point finding easier to understand. Experienced surveyors can still use conventional coordinate, map and CAD workflows while benefiting from tilt compensation, multi-constellation tracking and the independent base-to-rover radio link.
Field-to-office workflow
The receiver supports common GNSS correction and output formats, including RTCM and NMEA data. Its 32 GB internal memory provides space for project and observation data. FJD software and compatible controllers can be used to organise projects, apply coordinate systems, work with CAD information and move data between the field and office.
Controller choice should be matched to the intended workflow. A compact keyboard controller is convenient for conventional point collection, while a larger tablet display can be more practical for visual stakeout, CAD drawings and GIS maps.
Buying and support from Global GPS Systems
Global GPS Systems can help configure the FJD Trion V10a Rover and Base Set for the intended country, radio frequency, controller and field workflow. This is important because the correct accessories, communication settings and software configuration depend on how the equipment will be used.
Support is also available for initial setup, rover-and-base configuration and selecting a suitable controller or data-collection package. A correctly configured set allows teams to start with the equipment and workflow they need without adding unnecessary components.




















Reviews
There are no reviews yet