FJD Trion V10a Rover and Base Set with AR Stakeout

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The FJD Trion V10a Rover and Base Set is a complete RTK GNSS solution for accurate surveying, construction layout, topographic mapping and infrastructure work. The two compact V10a receivers can be configured as a local base station and rover, providing dependable centimetre-level positioning without relying entirely on an external correction network.

Dual 5 MP cameras add visual guidance to the stakeout process, helping operators find design points by following an augmented-reality view instead of working from directional values alone. Integrated IMU tilt compensation also allows points to be measured with the pole tilted by up to 60°, which is useful beside buildings, around obstacles and in locations where keeping the pole vertical is difficult.

  • Complete rover and base configuration for independent RTK work
  • Visual AR stakeout with dual 5 MP cameras
  • 60° IMU tilt compensation for faster point collection
  • Integrated UHF radio, 4G, Wi-Fi, Bluetooth and NFC
  • Compact IP68 receivers weighing approximately 800 g each

FJD Trion V10a Rover and Base Set Highlights

RTK accuracy Horizontal 8 mm + 1 ppm RMS and vertical 15 mm + 1 ppm RMS
Visual stakeout Dual 5 MP cameras with augmented-reality guidance and an 83° field of view
IMU tilt survey Automatic pole-tilt compensation up to 60°
GNSS tracking 1,408 channels with GPS, GLONASS, Galileo, BeiDou, QZSS, IRNSS and SBAS support
Communication Integrated UHF radio, 4G modem, Wi-Fi, Bluetooth, NFC and external-radio support
Field protection IP68 rated and designed to survive a 2 m pole drop

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Buyer protection and warranty included
Speak with a specialist +31 035 205 7939
Global GPS Systems
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4.74 store rating (580 reviews) | 4.68 product rating

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Description

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.

Datasheets & Manuals

Datasheets and manuals

Specifications

FJD Trion V10a Rover & Base Set Specifications

System Overview

Product type Professional multi-constellation RTK GNSS rover and base surveying system
Receiver model FJD Trion V10a
Receiver configuration One receiver configured as an RTK rover and one receiver configured as an RTK base station
Primary functions RTK surveying, static surveying, post-processed kinematic surveying, AR visual stakeout, CAD visualization and tilt-compensated measurements
Visual guidance Augmented-reality stakeout guidance using forward-facing and downward-facing cameras
Processor 4-core processor with multi-engine positioning and visualization algorithms
Status indication Four LED indicators for real-time operating status
Typical applications Cadastral and boundary surveys, construction staking, topographic surveys, river and coastline surveys, road and bridge engineering, utility infrastructure and general field data collection

GNSS Tracking

GNSS channels 1408
GPS signals L1A, L1C, L2C, L2P, L5
GLONASS signals L1, L2, L3
BeiDou signals B1I, B2I, B3I, B1C, B2a, B2b
Galileo signals E1, E5a, E5b, E6
QZSS signals L1, L2C, L5 and L6; L6 support may require a firmware upgrade
IRNSS/NavIC signals L5; support may require a firmware upgrade
SBAS signal L1 C/A
HAS-PPP signal Galileo E6

Positioning Accuracy

Positioning mode Horizontal accuracy Vertical accuracy
RTK 8 mm + 1 ppm RMS 15 mm + 1 ppm RMS
Post-processing static 2.5 mm + 0.5 ppm RMS 5 mm + 0.5 ppm RMS
High-precision static 2.5 mm + 0.1 ppm RMS 3.5 mm + 0.4 ppm RMS
PPK 3 mm + 1 ppm RMS 5 mm + 1 ppm RMS
PPP ±20 cm RMS ±40 cm RMS
Code differential 0.4 m RMS 0.8 m RMS
Autonomous 1.5 m RMS 2.5 m RMS

RTK and Measurement Performance

RTK initialization time Less than 5 seconds
RTK initialization reliability Greater than 99.9%
Positioning update rates 1 Hz, 2 Hz, 5 Hz, 10 Hz and 20 Hz
Cold-start time to first fix Less than 20 seconds
Warm-start time to first fix Less than 5 seconds
Signal reacquisition Less than 1 second
SBAS accuracy 60 cm

IMU Tilt Survey

Tilt compensation range 0° to 60°
Tilt-compensated RTK accuracy 8 mm + 0.6 mm per degree of tilt RMS
Tilt sensor Integrated IMU designed to remain immune to magnetic disturbances
Electronic level Integrated electronic bubble leveling
Pole operation Supports accurate measurements without holding the survey pole perfectly vertical

Camera and AR Stakeout

Camera arrangement Dual integrated cameras
Forward camera resolution 5 MP
Downward camera resolution 5 MP
Camera field of view 83°
AR stakeout Real-time visual guidance for locating and staking survey points
Mixed-reality capability Supports superimposing CAD drawings onto the live worksite view for design preview, alignment and verification
Live CAD surveying Supports visually guided field data collection and construction layout workflows

Mobile and Wireless Communications

SIM type Nano-SIM
Integrated cellular modem 4G modem
Supported mobile networks TDD-LTE, FDD-LTE, WCDMA, EDGE, GPRS and GSM
Wi-Fi 2.4 GHz and 5 GHz; IEEE 802.11a/b/g/n/ac
Bluetooth Bluetooth 4.2 and BLE
NFC One-tap NFC device pairing
Network RTK capability Supports mobile-data-based real-time correction workflows
Radio options Integrated UHF radio and support for an external radio

Integrated UHF Radio

Radio operating bands 410–470 MHz or 902–928 MHz, depending on regional configuration
Transmit power 2 W
Supported radio protocols TRIMTALK, TRIMMARK III, TT450S, TRANSEOT, Satel 3AS 4FSK and LoRa
Radio link rate 9,600 bps to 19,200 bps
Typical radio range 6–12 km
Maximum stated radio range Up to 16 km under optimal conditions
External radio connection 7-pin LEMO port
UHF antenna connection Dedicated UHF antenna port

Data Interfaces and Storage

USB interface USB Type-C
External radio interface 7-pin LEMO port
Data output formats NMEA 0183 and RTCM 3.x
Data input formats NMEA 0183, RTCM 3.x, RTCM 2.x and CMR, depending on operating mode
Internal data storage 32 GB
Field-to-office workflow Supports data transfer, project updates, coordinate systems, geoid models and datum-grid files through compatible FJD software services

Power and Battery

Battery type Built-in lithium-ion battery
Battery capacity 4900 mAh
Battery voltage 7.4 V
Fast charging 30 W USB Power Delivery fast charging
Rover operating time Up to 15 hours
Base operating time Up to 10 hours
Static-survey operating time More than 25 hours
External power input 9–28 V DC
Typical rover power consumption 3 W in UHF or 4G RTK rover operation without camera use
Typical visual-stakeout power consumption 4.5 W

Physical Specifications

Receiver dimensions 130 mm diameter × 68 mm height
Receiver weight Approximately 800 g per receiver
Housing construction Lightweight alloy body designed to resist magnetic interference
Design format Compact, pole-mountable GNSS receiver
Waterproof and breathable membrane Designed to reduce water-vapor ingress in harsh environments

Environmental and Durability Ratings

Ingress protection IP68
Dust protection Dustproof
Water protection Protected against continuous immersion to a depth of 1 m under the manufacturer’s specified conditions
Drop resistance Designed to survive a 2 m pole drop
Operating temperature -35°C to +65°C
Storage temperature -40°C to +70°C
Humidity tolerance 95% non-condensing
Magnetic-interference resistance Alloy construction and tilt sensor designed for stable operation in magnetically disturbed environments

Package Contents

Item Quantity Notes
FJD Trion V10a GNSS receiver 2 One receiver for rover operation and one receiver for base-station operation
Field data collector 1 Controller model and configuration may vary
Survey pole 1 For rover receiver and controller mounting
Controller bracket 1 For attaching the data collector to the survey pole
Survey tripod 1 For base-station installation

Specifications and package contents may vary by configuration, region or manufacturer update. Always check the current configuration before ordering.

FAQ

FJD Trion V10a Rover & Base Set FAQ

Product Overview and Applications

What is the FJD Trion V10a Rover & Base Set?

The FJD Trion V10a Rover & Base Set is a professional RTK GNSS surveying system consisting of two compact V10a receivers. One receiver operates as the base station and transmits correction data to the second receiver, which is used as the rover. This configuration enables millimetre-level positioning without depending entirely on a third-party RTK correction network.

Who is the FJD Trion V10a Rover & Base Set designed for?

The system is designed for land surveyors, construction surveyors, civil engineers, contractors, utility teams, GIS professionals and other field crews that require accurate GNSS measurements. It is suitable for organisations that need a portable base-and-rover solution for measuring, mapping and setting out points.

Which surveying applications can the V10a Rover & Base Set be used for?

The V10a set can be used for cadastral and boundary surveys, construction layout, topographic surveys, road and bridge projects, utility infrastructure surveys, earthworks, site control, river surveys and coastline measurements. It supports both point collection and stakeout workflows.

What is the advantage of using a rover and base station together?

A local base station measures GNSS correction data from a known or established position and sends those corrections to the rover in real time. This allows the rover to calculate a much more accurate position than a standalone GNSS receiver. A dedicated base-and-rover setup is especially useful where no suitable NTRIP or national RTK network is available.

Can the V10a be used for construction stakeout?

Yes. The V10a is designed for construction stakeout and includes camera-assisted augmented reality guidance. Survey points, lines and CAD information can be displayed in the live view, helping the operator identify the correct direction and locate design points on the jobsite.

Can the V10a Rover & Base Set be used for topographic and boundary surveying?

Yes. Its multi-constellation GNSS receiver, RTK positioning and tilt compensation make it suitable for collecting topographic points and performing cadastral or boundary survey work. The required procedures, control points and accuracy checks must always follow local surveying regulations and project specifications.

Accuracy, GNSS and AR Stakeout

What RTK accuracy does the FJD Trion V10a provide?

Under suitable operating conditions, the specified RTK accuracy is 8 mm + 1 ppm RMS horizontally and 15 mm + 1 ppm RMS vertically. Actual field accuracy depends on factors such as satellite visibility, correction quality, baseline length, multipath, atmospheric conditions and the quality of the survey control.

How quickly does the V10a obtain an RTK fixed solution?

The specified RTK initialisation time is less than five seconds under favourable conditions, with an initialisation reliability of more than 99.9%. Obstructions, radio interference, poor satellite geometry or delayed correction data may increase the time required to obtain a fixed solution.

Which satellite constellations does the V10a track?

The 1,408-channel receiver supports signals from GPS, GLONASS, BeiDou, Galileo, QZSS, IRNSS and SBAS. Support for multiple constellations and frequencies improves satellite availability and positioning performance across different regions and field environments.

What is AR stakeout on the FJD Trion V10a?

AR stakeout uses the receiver’s cameras and surveying software to place visual guidance over a live image of the jobsite. Instead of navigating only with numerical directions, the operator can follow on-screen markers towards the required stakeout point, making point location more intuitive.

Can the V10a display CAD drawings in the live camera view?

Yes. Compatible field software can show CAD design information together with the real-world camera view. This helps users preview layouts, check alignment and understand where planned features should be positioned before or during construction.

What cameras are built into the V10a?

Each V10a receiver has a forward-facing 5 MP camera and a downward-facing 5 MP camera. The camera system has an 83-degree field of view and supports visual stakeout and camera-assisted surveying workflows.

Tilt Surveying, Connectivity and Data

Does the FJD Trion V10a support tilt compensation?

Yes. The integrated IMU supports pole tilt compensation up to 60 degrees. This allows the operator to measure points without holding the survey pole perfectly vertical, which is useful near walls, corners, fences, vehicles and other obstacles.

Does the IMU need regular calibration?

The V10a uses an IMU-based tilt system designed for efficient field operation and resistance to magnetic disturbances. The operator should still follow the software prompts and recommended operating procedures to initialise or verify tilt compensation before collecting critical measurements.

How do the base and rover communicate?

The V10a supports an integrated UHF radio for transmitting RTK corrections between the base and rover. It also supports external radio connections, allowing the system to be configured for different project distances, radio environments and regional frequency requirements.

What is the typical UHF radio range?

The specified internal-radio range is typically between 6 and 12 km, with up to 16 km possible under suitable optional conditions. Real-world range depends heavily on terrain, antenna height, obstructions, interference, radio settings and local transmission regulations.

Can the V10a connect to an NTRIP or RTK network?

Yes. The integrated 4G modem and Nano-SIM support allow the receiver to obtain correction data from compatible NTRIP or RTK network services. Network access requires mobile coverage, valid connection details and any subscription or authorisation required by the correction provider.

Which wireless and data connections does the V10a support?

The receiver supports 2.4 GHz and 5 GHz Wi-Fi, Bluetooth 4.2 and BLE, NFC device pairing, an integrated 4G modem, internal UHF radio and external radio connectivity. Physical connections include USB Type-C, a UHF antenna port and a 7-pin LEMO port for an external radio.

Which surveying data formats are supported?

The V10a supports NMEA-0183 and RTCM 3.x for data input and output. It can also receive RTCM 2.x and CMR correction data. Compatibility with specific CAD, coordinate, point and project formats depends on the field controller software and office software being used.

Field Operation, Durability and Compatibility

How large and heavy is each V10a receiver?

Each receiver is approximately 130 mm in diameter, 68 mm high and weighs about 800 g. Its compact design reduces the weight carried on the survey pole and makes the system easier to transport between projects.

Is the FJD Trion V10a waterproof and dustproof?

Yes. The receiver has an IP68 ingress-protection rating. It is designed to resist dust and continuous water immersion to a depth of 1 metre under the specified test conditions. Ports and covers must be correctly closed and maintained to preserve this protection.

Can the V10a withstand drops and harsh jobsite conditions?

The V10a is designed to survive a 2-metre pole drop and has a lightweight alloy housing for field durability. Its operating temperature range is -35°C to 65°C. As with all precision instruments, avoiding unnecessary impacts and inspecting the equipment after a fall are recommended.

How long does the V10a battery last?

The built-in 4,900 mAh battery provides a specified operating time of up to 15 hours in rover mode, up to 10 hours in base mode and more than 25 hours during static operation. Battery life varies with temperature, radio transmission, mobile data, camera use and other operating conditions.

How is the FJD Trion V10a charged?

The receiver supports USB Type-C charging and 30 W Power Delivery fast charging. It can also accept an external power input between 9 and 28 V DC, which can be useful when the base station must operate for an extended period.

Which field controllers can be used with the V10a?

The V10a can be operated with compatible FJD Trion field controllers or tablets. Compact keyboard controllers are suitable for conventional surveying tasks, while larger tablets provide more screen space for AR stakeout, CAD drawings, maps and other visual workflows. Controller availability depends on the selected package configuration.

What is included in the FJD Trion V10a Rover & Base Set?

The core configuration contains two FJD Trion V10a GNSS receivers for use as a rover and base station. Field controllers, poles, tripods, tribrachs, antennas, chargers, carrying cases and software licences may depend on the selected package or regional configuration. Review the listed package contents before deployment.

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This product is available

Get the best price for your setup

Contact our experts for the best possible price and configuration.

Fast response Expert configuration advice No overpaying for features you do not need
Why choose Global GPS Systems?
European support & worldwide delivery
Worldwide shipping from the Netherlands
100% insured shipping against loss or damage
Import, export, tax and duties support
Expert support from product specialists
Buyer protection and warranty included
Speak with a specialist +31 035 205 7939
Global GPS Systems
Independently verified
4.74 store rating (580 reviews) | 4.68 product rating
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