FJD Trion V10L Laser RTK GNSS Receiver

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The FJD Trion V10L is a professional laser RTK GNSS receiver designed for surveyors, construction teams, engineers and GIS professionals who need to measure or set out points that cannot be reached easily with a survey pole. Its visible green laser supports non-contact measurement and laser-guided stakeout, while dual cameras provide a live view of the target during aiming and AR navigation.

A second-generation, calibration-free IMU supports pole tilt angles up to 60°, making it easier to collect points beside walls, fences, machinery, excavations and other obstacles. The receiver also includes 1408-channel multi-constellation GNSS tracking, integrated UHF and 4G communications, Wi-Fi, Bluetooth, NFC and a rugged IP68-rated enclosure for regular outdoor use.

FJD Trion V10L Highlights

Laser surveying Visible green laser for non-contact measurement and laser stakeout
Laser accuracy ≤2 cm within 5 m, ≤3 cm within 10 m and ≤4 cm within 15 m
Laser measuring range 0–80 m with Automatic Gain Control
IMU tilt compensation Calibration-free second-generation IMU supporting 0–60° tilt
RTK accuracy 8 mm + 1 ppm horizontal and 15 mm + 1 ppm vertical RMS
Cameras Dual 2 MP cameras with AR stakeout and low-light target viewing
GNSS tracking 1408 channels supporting GPS, GLONASS, Galileo, BeiDou, QZSS, IRNSS and SBAS
Field protection IP68 rated and designed to survive a 2 m pole drop

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Description

FJD Trion V10L Laser RTK GNSS Receiver

The FJD Trion V10L combines centimetre-level RTK GNSS positioning with non-contact laser measurement, camera-assisted target selection and IMU tilt compensation. It is designed for surveyors, construction professionals, civil engineers, utility crews and GIS teams who regularly encounter points that are difficult, unsafe or inefficient to reach with a conventional survey pole.

The receiver can be used for topographic surveying, construction layout, infrastructure measurement, utility mapping, cadastral work, as-built recording and ground control surveys. Its combination of GNSS, laser and visual guidance gives field crews several ways to collect or set out coordinates according to the conditions on site.

Non-Contact Laser Measurement

The V10L uses a visible green laser to measure a point without placing the pole tip directly on the target. The operator can aim at a wall corner, bridge element, excavation edge, riverbank, structural feature or other inaccessible position from a safer and more convenient standing point.

Specified laser measurement accuracy is ≤2 cm within 5 metres, ≤3 cm within 10 metres and ≤4 cm within 15 metres. The laser ranging system has a stated measuring range of 0 to 80 metres and uses Automatic Gain Control to adapt to changes in distance, lighting and target surface. Actual accuracy depends on RTK quality, target reflectivity, visibility, distance and surrounding conditions. :contentReference[oaicite:1]{index=1}

Visible Green Laser and Low-Light Camera

The green laser gives the operator a visible aiming reference during measurement and stakeout. It is intended to remain practical in both bright and low-light conditions, helping the user confirm where the receiver is pointing before recording a coordinate.

A starlight-grade camera with global shutter supports target viewing in darker environments such as beneath bridges, beside structures, inside partially covered areas or during early-morning and evening work. This can make distant or poorly lit targets easier to identify through the controller display.

EasyFix Target Selection

The EasyFix workflow combines the live camera image with automatic alignment and zoom assistance. This helps the operator select and hold the intended feature when several nearby objects are visible or when the required point is small and located at a distance.

In practical fieldwork, this can reduce repeated manual aiming when measuring narrow edges, corners, bolts, markings and structural details. The camera view also gives the user a visual check of the target before accepting the observation.

AR and Laser Stakeout

The dual-camera system supports real-scene AR stakeout. Direction and distance guidance are shown over the live view of the site, making it easier to understand where the design point is located in relation to surrounding features.

The system can use forward and downward camera views as the operator moves towards the target. Laser guidance can then indicate the required position without forcing the user to place the pole directly over every stakeout point. This is useful near walls, barriers, traffic routes, excavations and other restricted areas.

Second-Generation 60° IMU

The integrated IMU compensates for pole tilt from 0° to 60°. The pole therefore does not need to remain perfectly vertical during every observation, allowing points to be collected beside obstacles, under vehicles, near fences, around machinery and on uneven ground.

The IMU is calibration-free and designed to initialize quickly during normal field movement. The specified RTK accuracy with tilt compensation is 8 mm plus 0.6 mm for each degree of tilt under suitable conditions. This helps crews work more naturally without stopping to level the pole for every point. :contentReference[oaicite:2]{index=2}

Multi-Constellation GNSS Tracking

A 1408-channel GNSS board tracks GPS, GLONASS, Galileo, BeiDou, QZSS, IRNSS and SBAS signals. Access to multiple constellations and frequencies increases the number of usable satellites and can improve positioning availability near buildings, vegetation and other partial obstructions.

Specified RTK performance is 8 mm + 1 ppm horizontally and 15 mm + 1 ppm vertically, with initialization listed at under five seconds and reliability above 99.9% in suitable open-sky conditions. The receiver also supports static, high-precision static, PPK, PPP and differential positioning workflows. :contentReference[oaicite:3]{index=3}

V10La and V10Li Versions

The V10L platform is available in two versions. The V10La provides laser measurement, AR stakeout, dual-camera guidance and IMU tilt compensation. The V10Li adds visual survey measurement, allowing coordinates to be calculated from captured imagery over a specified working range of approximately 2 to 15 metres.

This allows buyers to choose between a laser-focused receiver and a version that also supports image-based coordinate measurement. The exact version should be selected according to the intended field workflow.

Flexible RTK Communications

An integrated 4G modem allows the receiver to connect to compatible NTRIP or CORS correction services through a Nano-SIM card. This supports network RTK operation where suitable mobile coverage and correction access are available.

The built-in UHF radio can transmit or receive corrections in a local base-and-rover setup. Supported regional radio bands include 410–470 MHz and 902–928 MHz, with availability depending on the market and local regulations. Wi-Fi, Bluetooth, NFC, USB Type-C and external antenna connections provide additional options for controllers, data transfer and equipment setup. :contentReference[oaicite:4]{index=4}

Receiver Display and Field Controls

A 1.41-inch colour OLED screen shows operating information directly on the receiver. Four status LEDs and two physical buttons allow crews to check the receiver state and access basic functions without relying entirely on the field controller.

The receiver also includes voice input and audio output functions. Clear status feedback is useful when setting up a rover, base station or static occupation and when confirming GNSS, communication and battery conditions in the field.

Rugged Construction for Site Work

The V10L has an IP68-rated housing designed to protect the internal electronics against dust and continuous water immersion to a depth of one metre under specified conditions. It is also designed to survive a two-metre pole drop.

The receiver measures approximately 130 × 83 mm and weighs around 980 g. Its specified operating temperature range is -35°C to 65°C, making it suitable for varied outdoor environments when used according to the operating and safety instructions. :contentReference[oaicite:5]{index=5}

Battery Performance

The built-in 7000 mAh battery provides specified operating times of up to 15 hours in rover mode, 10 hours in base mode and more than 25 hours in static mode. Battery life varies with laser use, camera activity, radio transmission, mobile connectivity, temperature and working mode.

Support for 30 W Power Delivery charging helps reduce charging time between jobs. A 9–28 V DC external power input is also available for longer base occupations or extended site use.

Typical Applications

  • Topographic and cadastral surveying
  • Construction layout and laser stakeout
  • Road, bridge and railway projects
  • Wall corners and building detail measurement
  • Utility and GIS asset mapping
  • Substations and industrial facilities
  • Riverbanks, shorelines and drainage projects
  • Excavation edges and earthworks
  • Ground control points for drone mapping
  • As-built and infrastructure documentation

Support from Global GPS Systems

Selecting the correct V10L version involves more than comparing the main specifications. RTK network access, radio frequencies, field controller compatibility, coordinate systems, software configuration and required measurement methods all affect the most suitable setup. Global GPS Systems can help buyers choose between the V10La and V10Li and configure the receiver for their normal surveying or construction workflow.

The FJD Trion V10L is a practical option for teams that need conventional pole surveying together with laser measurement, AR stakeout and tilt compensation. It gives field crews more flexibility when a target is difficult to access or when direct contact with the survey pole is not the safest or most efficient method.

Datasheets & Manuals

Datasheets and manuals

Datasheet

Specifications

FJD Trion V10L Specifications

Product Overview

Product type Professional multi-constellation RTK GNSS receiver with non-contact laser measurement, AR stakeout, visual guidance and IMU tilt compensation
Available models FJD Trion V10La and FJD Trion V10Li
Primary functions RTK surveying, non-contact laser measurement, laser-assisted stakeout, visual stakeout, tilt surveying, static surveying, PPK and PPP positioning
Typical applications Topographic surveying, cadastral surveying, construction layout, as-built measurement, road and bridge projects, utility mapping, GIS data collection, riverbank surveys, underpass surveys and substation work
Hard-to-reach measurement applications Suitable for walls, building corners, bridge structures, riverbanks, underpasses, excavation edges, hazardous areas and targets that cannot be occupied directly with a survey pole
Compatible field workflow Operates with a compatible keyboard controller or tablet controller running the FJD Trion Survey application

Model Comparison

Function V10La V10Li
RTK GNSS positioning Supported Supported
Non-contact laser measurement Supported Supported
Laser-assisted stakeout Supported Supported
AR visual stakeout Supported Supported
Visual measurement from imagery Not supported Supported
Multiple-point selection from one image Not supported Supported
Recommended use Conventional RTK, point-by-point laser measurement and stakeout RTK and laser workflows plus visual measurement of multiple targets or complex scenes

GNSS Tracking

GNSS channels 1408
GPS signals L1A, L1C, L2C, L2P and L5
GLONASS signals L1, L2 and L3
BeiDou signals B1I, B2I, B3I, B1C, B2a and B2b
Galileo signals E1, E5a, E5b and E6
QZSS signals L1, L2C, L5 and L6
IRNSS / NavIC signals L5
SBAS signals L1 C/A
HAS-PPP signal Galileo E6
Firmware-dependent signals QZSS L6 and IRNSS L5 support may require a firmware upgrade
Positioning rates 1 Hz, 2 Hz, 5 Hz and 10 Hz

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 positioning 1.5 m RMS 2.5 m RMS
SBAS 60 cm

RTK Initialization and Signal Acquisition

RTK initialization time Less than 5 seconds
RTK initialization reliability Greater than 99.9%
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
RTK performance condition Published RTK specifications are based on open-sky operating conditions

Laser Measurement

Laser function Non-contact distance measurement and laser-assisted stakeout
Laser type Visible Class 2M green laser
Laser wavelength 520 nm ±20 nm
Maximum laser output 0.475 mW
Measuring range 0 m to 80 m under suitable target, lighting and environmental conditions
Laser accuracy within 5 m ≤2 cm
Laser accuracy within 10 m ≤3 cm
Laser accuracy within 15 m ≤4 cm
Ranging accuracy formula ±(5 + 100 × 10-6 × D) mm, where D is the measuring distance in millimetres
Automatic Gain Control Automatically adapts ranging performance to changing target surfaces and ambient-light conditions
Daylight operation Green laser is designed to remain visible in bright sunlight as well as low-light conditions
Non-contact operation Allows points to be measured or staked without placing the survey pole directly on the target
Laser safety Do not stare into the beam or direct the laser toward people, animals, vehicles or aircraft

EasyFix Targeting

EasyFix function Camera-assisted target acquisition for non-contact laser measurement and stakeout
Automatic alignment Automatically assists with aligning the live camera view and selected target
Automatic zoom Automatically adjusts the camera view to help identify and select distant targets
Target preview Displays a live view so the operator can confirm the intended measurement point before capture
Low-light targeting Integrated night-vision imaging supports aiming, measurement and stakeout in dark environments

IMU Tilt Compensation

IMU generation Second-generation calibration-free IMU
Tilt range 0° to 60°
Tilt-compensated RTK accuracy 8 mm + 0.6 mm per degree of tilt RMS
Calibration requirement No manual calibration required
Initialization Automatic initialization designed for immediate field use
Startup improvement Manufacturer-stated startup efficiency improvement of up to 60% compared with the first-generation IMU
Magnetic interference resistance IMU tilt measurement is designed to remain unaffected by magnetic disturbances
Electronic leveling Electronic bubble display

Cameras and Visual Functions

Camera system Dual-camera system
Camera resolution Dual 2 MP cameras
Night-vision camera Integrated 2 MP night-vision camera for low-light laser measurement and stakeout
Field of view 88°
Vertical field of view 63°
Horizontal field of view 76°
Shutter type Global shutter
Camera sensitivity Starlight-grade low-light imaging
Sensor pixel size 3 µm × 3 µm
Low-light image output Designed to maintain full-colour imaging at low illumination levels
AR visual stakeout Displays real-scene direction and distance guidance to the stakeout point
Stakeout camera switching Automatically switches between front and bottom camera views during compatible stakeout workflows
Visual measurement availability Supported by the V10Li configuration
Visual survey accuracy Typically 3 cm over a 2 m to 15 m measurement range on the V10Li
Visual capture method Video photogrammetry
Maximum image-group capture time 30 seconds
Approximate image-group size 30 MB

Cellular and Wireless Connectivity

Cellular modem Integrated 4G modem
Supported cellular standards TDD-LTE, FDD-LTE, WCDMA, EDGE, GPRS and GSM
SIM card type Nano-SIM
Wi-Fi 2.4 GHz and 5 GHz, IEEE 802.11a/b/g/n/ac
Bluetooth Bluetooth 2.1 EDR, 3.0 HS, 4.2 LE and 5.0 LE
NFC Supported for one-tap device pairing
Network RTK Supports compatible NTRIP and network correction services through the integrated cellular modem
Controller connection Wireless connection to compatible FJD keyboard controllers and tablet controllers

Built-in UHF Radio

Radio function Integrated UHF transmitter and receiver
Available frequency bands 410 MHz to 470 MHz or 902 MHz to 928 MHz, depending on regional configuration
Transmit power 2 W
Supported 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 km to 12 km
Maximum stated radio range Up to 16 km under optimal operating conditions
External radio support Supports compatible external-radio workflows
UHF antenna connection Dedicated UHF antenna port

Data Formats and Storage

NMEA data NMEA-0183 input and output
RTCM 3.x data Input and output
RTCM 2.x data Input
CMR data Input
Internal storage 32 GB
Supported data workflows Real-time corrections, static GNSS observation logging, PPK, visual-measurement imagery, field data collection and project-data transfer

Ports and Interfaces

Multi-function port 7-pin LEMO connector for data communication and external power
USB port USB Type-C for charging and data transfer
UHF antenna port Dedicated external UHF antenna connection
SIM interface Nano-SIM card slot
Physical controls 2 physical buttons
Status indicators 4 LED indicators

Display and User Interface

Display type True-colour OLED
Display size 1.41 inches
Display resolution 320 × 360 pixels
Pixel density 274 ppi
Displayed information Operating mode, receiver status, satellite status, correction-link status, battery level and connection information
Controller options Compatible compact keyboard controller or tablet controller
Field software FJD Trion Survey application

Battery and Power

Battery type Built-in rechargeable lithium-ion battery
Battery capacity 7000 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 operating time More than 25 hours
External power input 9 V to 28 V DC
Typical UHF or 4G rover power consumption Approximately 3 W without camera operation
Typical visual-mode power consumption Approximately 4.5 W during visual stakeout or visual surveying
Runtime conditions Battery life varies with temperature, radio transmit power, network mode, camera use, laser use and other operating conditions

Physical Specifications

Dimensions 130 mm diameter × 83 mm height
Weight Approximately 980 g
Receiver design Compact rugged receiver suitable for survey-pole, tripod and base-station mounting
Waterproof and breathable membrane Designed to reduce water-vapour ingress in harsh working environments

Environmental and Durability

Ingress protection IP68
Dust protection Dust-tight
Water protection Protected against continuous immersion to a depth of 1 m under specified test 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 95% non-condensing

Survey and Stakeout Functions

Conventional RTK surveying Collects centimetre-level points using a compatible network RTK service or local base station
Tilt surveying Allows points to be measured with the survey pole tilted by up to 60°
Non-contact measurement Measures inaccessible or hazardous points by aiming the visible laser at the target
Non-contact stakeout Combines AR guidance with a visible laser to indicate the required stakeout location
AR visual stakeout Displays real-world direction and distance guidance through the controller camera view
Visual surveying V10Li can calculate coordinates for multiple targets from captured imagery
Static surveying Supports post-processed static and high-precision static observation workflows
Post-processing Supports PPK and static GNSS post-processing workflows

Software and System Compatibility

Field software FJD Trion Survey
Field software functions RTK surveying, laser measurement, laser stakeout, AR stakeout, tilt measurement, point collection, construction layout and project management
Controller compatibility Compatible with supported FJD keyboard controllers and tablet field controllers
Correction sources Network RTK / NTRIP, compatible local UHF base stations and supported external correction sources
Connected workflow Supports field data collection, project transfer and compatible field-to-office data workflows
Firmware-dependent functions Some GNSS signals and functions may require the latest compatible firmware

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

FAQ

FJD Trion V10L FAQ

Product Overview and Applications

What is the FJD Trion V10L?

The FJD Trion V10L is a professional RTK GNSS receiver with integrated non-contact laser measurement, dual cameras, AR stakeout and a second-generation IMU. It enables surveyors to measure or stake out points with centimetre-level positioning accuracy, including locations that are difficult or unsafe to reach with a survey pole.

Who is the FJD Trion V10L designed for?

The V10L is designed for land surveyors, construction professionals, civil engineers, utility contractors, GIS teams, infrastructure crews, agricultural surveyors and other users who need accurate field positioning and flexible non-contact measurement.

Which surveying applications can the V10L support?

The receiver can support topographic surveys, construction layout, infrastructure stakeout, cadastral work, utility mapping, agricultural land measurement, urban layout, industrial site surveys, bridge surveys, riverbank measurements and as-built documentation.

What makes the V10L different from a conventional RTK GNSS receiver?

Unlike a conventional pole-based RTK receiver, the V10L includes a visible green laser and camera-assisted targeting. This allows the operator to calculate coordinates without physically placing the survey pole on every target.

What is the difference between the FJD Trion V10La and V10Li?

The V10La is the standard laser-measurement version. The V10Li includes the same main capabilities and additionally supports visual measurement using video photogrammetry. Availability and supplied firmware may depend on the selected product configuration.

Can the FJD Trion V10L be used as both a rover and a base station?

Yes. The receiver supports rover, base and static operating modes. Its integrated UHF radio, 4G modem and external power input make it suitable for both mobile rover work and local base-station operation.

Laser Measurement and AR Stakeout

How does laser measurement work on the FJD Trion V10L?

The operator aims the visible laser at the required target. The receiver combines the measured laser distance with its GNSS position, orientation sensors and camera view to calculate the target coordinates without direct pole contact.

What is the laser measurement range of the V10L?

The integrated laser has a specified ranging capability of up to 80 metres. The recommended high-precision non-contact surveying range is up to 15 metres, while the usable distance depends on the target surface, lighting, atmospheric conditions and receiver stability.

How accurate is the V10L laser measurement?

The specified laser measurement accuracy is up to 2 cm within 5 metres, up to 3 cm within 10 metres and up to 4 cm within 15 metres. Actual results also depend on RTK correction quality, target visibility and correct field procedures.

What is the EasyFix feature?

EasyFix uses automatic camera alignment and zoom assistance to help the operator find and select a laser target in the live camera view. It is intended to improve aiming speed and reduce manual adjustment when measuring small or distant points.

Can the V10L laser be used in daylight and low-light conditions?

Yes. The V10L uses a visible green laser designed for strong visibility in daylight and darkness. Its 2 MP night-vision camera also helps the operator preview and select targets in low-light working environments.

What types of points can be measured without contact?

Non-contact measurement is useful for wall corners, bridge components, riverbanks, underpasses, excavation edges, fences, slopes, building façades, substations and other points that are obstructed, elevated or unsafe to occupy directly.

What is AR stakeout on the FJD Trion V10L?

AR stakeout displays the target direction and distance within a live camera view. The dual cameras can switch between forward and downward views to provide visual guidance while the operator moves toward a design point.

Can the V10L perform non-contact laser stakeout?

Yes. The V10L supports laser-assisted stakeout, allowing the operator to indicate or locate a target on a wall, structure, ground surface or other location where conventional staking may be impractical.

GNSS Accuracy, Tilt and Corrections

What RTK accuracy does the FJD Trion V10L provide?

Under open-sky conditions with suitable corrections, the specified RTK accuracy is 8 mm + 1 ppm RMS horizontally and 15 mm + 1 ppm RMS vertically. Field accuracy depends on satellite visibility, correction quality, baseline length, multipath and the measurement environment.

Which satellite constellations does the V10L track?

The V10L has 1,408 GNSS channels and supports GPS, GLONASS, BeiDou, Galileo, QZSS, IRNSS and SBAS signals. Some signals may require a supported firmware version.

How quickly can the V10L obtain an RTK fixed solution?

The specified RTK initialization time is less than five seconds under suitable conditions, with initialization reliability above 99.9%. Obstructions, radio interference or poor correction data can increase the time required.

Does the FJD Trion V10L support tilt compensation?

Yes. Its second-generation IMU supports calibration-free pole tilt from 0 to 60 degrees. This allows measurements to be collected when the pole cannot be held perfectly vertical.

How accurate is the V10L with tilt compensation active?

The specified RTK accuracy with tilt compensation is 8 mm + 0.6 mm per degree of tilt RMS. Keeping the pole stable and limiting unnecessary tilt helps achieve the best results.

Can the V10L receive NTRIP corrections?

Yes. Its integrated 4G modem and nano-SIM slot allow the receiver to connect to a compatible NTRIP or CORS correction service where mobile coverage and valid access credentials are available.

Does the FJD Trion V10L have a built-in UHF radio?

Yes. The receiver includes a 2 W UHF transceiver for local base-and-rover communication. Depending on the regional version, supported frequency ranges include 410–470 MHz or 902–928 MHz. Radio use must comply with local regulations.

What is the typical UHF radio range?

The specified radio range is typically 6 to 12 kilometres and may reach up to 16 kilometres under optimal conditions. Terrain, antenna height, buildings, vegetation, interference and permitted transmission power can significantly affect the practical range.

Connectivity, Hardware and Field Operation

Which connectivity options are built into the V10L?

The V10L includes 4G mobile connectivity, dual-band 2.4 GHz and 5 GHz Wi-Fi, Bluetooth, NFC pairing and UHF radio. It also has USB Type-C, a 7-pin LEMO connection and a UHF antenna port.

How much internal storage does the FJD Trion V10L have?

The receiver has 32 GB of internal memory for storing GNSS observations and project-related data.

How long does the V10L battery last?

The built-in 7,000 mAh battery is specified for up to approximately 15 hours in rover mode, 10 hours in base mode and more than 25 hours in static mode. Actual operating time varies with temperature, laser and camera use, radio power and network activity.

How is the FJD Trion V10L charged or externally powered?

The V10L supports 30 W Power Delivery fast charging and can accept an external power input from 9 to 28 V DC. External power can be useful when the receiver is operating as a base station for extended periods.

Is the FJD Trion V10L waterproof and suitable for outdoor use?

Yes. The receiver has an IP68 ingress-protection rating, is dustproof and is protected against continuous immersion in water to a depth of 1 metre under defined test conditions. It is also designed to survive a 2-metre pole drop.

What are the operating temperature, size and weight of the V10L?

The specified operating temperature range is -35°C to 65°C. The receiver measures approximately 130 mm in diameter by 83 mm high and weighs approximately 980 grams.

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Get the best price for your setup

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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
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4.74 store rating (580 reviews) | 4.68 product rating
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