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The BLV BL-CH4 Mini3 Methane Detector for DJI Matrice 4D/4TD & DJI Dock 3 is an advanced sensor system for precise and reliable detection and mapping of methane (CH4) concentrations based on TDLAS technology. Seamless integration with DJI Dock 3 and compatibility with Matrice 4D/4TD drones enables efficient, automated inspections of industrial sites and pipelines while simultaneously reducing operating costs. With its lightweight, compact design, the system opens up new possibilities for unmanned inspection flights and increases leak detection effectiveness.   Features:       · Detection distance up to 50 meters for precise leak detection during flight operations     · Ultra-fast response time of just 20 ms enables immediate evaluation     · Automated operation via DJI Dock 3, ideal for continuous inspections     · Lightweight at only 240 g including gimbal for optimal flight characteristics     · High measurement reliability with ±10% tolerance across the entire working range   Its professional mapping lens, 2-axis gimbal stabilization, and robust IP55-rated construction make the BL-CH4 Mini3 ideal for a variety of inspection tasks from pipelines, refineries, or industrial plants to landfill gas monitoring, offshore gas leak detection, chemical plant monitoring, inspection of industrial gas networks, and fire warning applications. TDLAS technology enables highly sensitive and selective methane detection while protecting the measurement environment and ensuring safety.   Technical Specifications:       · Product type: UAV methane detector (BL-CH4 Mini3)     · Measurement principle: TDLAS     · Compatible platforms: DJI Dock 3, Matrice 4D/4TD (E-Port)     · Gimbal: 2-axis stabilization (pitch, roll), accuracy ±0.01°     · Detection distance: 1-50 m (depending on reflector and conditions)     · Detection range: 0~100000 ppm*m     · Tolerance: ±10%     · Sensitivity: 5 ppm*m     · Response time: 20 ms     · Protection class: IP55     · Detection laser: Class 1 (eye safe), indicator laser: Class 3 (eye hazard)     · Operating temperature: -25 to 60 °C     · Working humidity: < 95% RH (at 25 °C)     · Power consumption: 3 W     · Weight (including gimbal): 240 g     · Dimensions: 60 × 70 × 60 mm

The BLV BL-CH4 400 Methane Detector for DJI Matrice 350 RTK / Matrice 400 is a lightweight, high-sensitivity gas detector based on Tunable Diode Laser Absorption Spectroscopy (TDLAS). It enables fast and precise detection of methane from as low as 5 ppm*m or from up to 150 meters away (in this variant). Through intelligent combination of advanced laser measurement with precise visual calibration and integrated gimbal stabilization, the device delivers crucial information for early methane leak detection. Data is transmitted in real time via the cloud, significantly enhancing situational awareness and operational efficiency.   Features:       · 150-meter telemetry distance     · 5 ms response time     · Precise real-time leak location     · Monitoring and analysis data transmitted directly to the cloud     · Professional surveying and mapping optics for excellent results even during challenging flight missions   Thanks to its specially developed lens and precise integration with a stabilized gimbal, the BL-CH4 400 is ideal for tasks such as inspection and leak detection of pipelines, refineries, industrial plants, landfills, commercial areas, agricultural sites, municipal gas networks monitoring, and greenhouse gas detection. Real-time laser coordinate functionality enables rapid and efficient localization of leaks, with compatibility for various drone platforms (especially DJI M350 RTK and DJI M400). The system is robustly constructed, weather-resistant (IP55), and supports both standard and custom interfaces, making it suitable for a wide variety of operational scenarios.   Technical Specifications:       · Detectable gases: Methane and methane-containing gases     · Gimbal stabilization: YAW+PITCH+ROLL     · Camera: 13 MP, 4x optical zoom     · Video resolution: 1920x1080 (FHD)     · Sensitivity: 1 ppm*m     · Concentration range: 0~99999 ppm*m     · Measurement accuracy: ±10% in the range 100~50000 ppm*m     · Response time: 5 ms     · Detection distance: 1–150 m (depending on reflector and conditions)     · Laser ranging: Real-time coordinate function     · Compatible platforms: DJI Matrice 350 RTK, DJI Matrice 400     · Weight: <770 g     · Protection level: IP55     · Operating temperature: -20°C to 50°C     · Rated current: <1 A (typical: 8V, 0.3 A)     · Rotation range: Pitch +30° to -95°, Roll +60°     · Route functions: Route planning, KML import, terrain follow     · Supported models: Standard interface, customization possible     · Infrared laser class: 3R, max. 1.65 μm, <25 mW (avoid eye contact)     · Green indicator laser: Class 3R, 520 nm, <5 mW (avoid eye contact)

The BLV BL-CH4 400 Methane Detector for DJI Matrice 350 RTK / Matrice 400 is a lightweight, high-sensitivity gas detector based on Tunable Diode Laser Absorption Spectroscopy (TDLAS). It enables fast and precise detection of methane from as low as 5 ppm*m or from up to 300 meters away (in this variant). Through intelligent combination of advanced laser measurement with precise visual calibration and integrated gimbal stabilization, the device delivers crucial information for early methane leak detection. Data is transmitted in real time via the cloud, significantly enhancing situational awareness and operational efficiency.   Features:       · 300-meter telemetry distance     · 5 ms response time     · Precise real-time leak location     · Monitoring and analysis data transmitted directly to the cloud     · Professional surveying and mapping optics for excellent results even during challenging flight missions   Thanks to its specially developed lens and precise integration with a stabilized gimbal, the BL-CH4 400 is ideal for tasks such as inspection and leak detection of pipelines, refineries, industrial plants, landfills, commercial areas, agricultural sites, municipal gas networks monitoring, and greenhouse gas detection. Real-time laser coordinate functionality enables rapid and efficient localization of leaks, with compatibility for various drone platforms (especially DJI M350 RTK and DJI M400). The system is robustly constructed, weather-resistant (IP55), and supports both standard and custom interfaces, making it suitable for a wide variety of operational scenarios.   Technical Specifications:       · Detectable gases: Methane and methane-containing gases     · Gimbal stabilization: YAW+PITCH+ROLL     · Camera: 13 MP, 4x optical zoom     · Video resolution: 1920x1080 (FHD)     · Sensitivity: 1 ppm*m     · Concentration range: 0~99999 ppm*m     · Measurement accuracy: ±10% in the range 100~50000 ppm*m     · Response time: 5 ms     · Detection distance: 1–300 m (depending on reflector and conditions)     · Laser ranging: Real-time coordinate function     · Compatible platforms: DJI Matrice 350 RTK, DJI Matrice 400     · Weight: <770 g     · Protection level: IP55     · Operating temperature: -20°C to 50°C     · Rated current: <1 A (typical: 8V, 0.3 A)     · Rotation range: Pitch +30° to -95°, Roll +60°     · Route functions: Route planning, KML import, terrain follow     · Supported models: Standard interface, customization possible     · Infrared laser class: 3R, max. 1.65 μm, <25 mW (avoid eye contact)     · Green indicator laser: Class 3R, 520 nm, <5 mW (avoid eye contact)

The CHCNAV RS10 3D LiDAR scanner is an innovative, integrated handheld SLAM surveying solution with GNSS RTK that combines laser scanning, GNSS technology, and visual SLAM in a single platform. This advanced combination enables precise and efficient 3D data capture and surveying both indoors and outdoors.   Features:       · Integrated GNSS RTK and SLAM technology for accurate measurements even with weak GNSS signals     · Absolute accuracy of 5 cm and relative accuracy of 1 cm RMS thanks to GNSS RTK, visual SLAM fusion, and high-precision LiDAR     · Real-time generation of georeferenced point clouds with immediate feedback for optimised data capture     · Efficient workflow without loop closure ("loop closure") to improve efficiency by reducing time and lobar     · Wide range of applications from BIM and forestry to powerline inspection and underground surveying     · Software integration with SmartGo and CoPre for real-time visualisation and efficient data processing     · Robust, lightweight IP64-rated housing for use in various environmental conditions     · Hot-swappable battery with up to 60 minutes runtime per battery     · 512 GB storage capacity for large data amounts and data communication via 4G, Wi-Fi, and Bluetooth 4.2   The RS10 targets surveyors, civil engineers, BIM professionals, and users in agriculture, forestry, power line inspection, material volume calculation, and underground data collection. It allows accurate surveying even in weak or no GNSS signal environments, opening new possibilities for complex environments like indoor spaces or urban canyons.   Precision and Technology   The system combines a 4th-generation GNSS antenna with high-precision LiDAR and three HD cameras, achieving an absolute measurement accuracy of 5 cm. The innovative SFix technology allows the RS10 to calculate precise GNSS RTK points from LiDAR and SLAM data within one minute without satellite signals. This achieves unprecedented precision in indoor surveying. Vi-LiDAR technology offers a new RTK surveying method that combines GNSS rover capabilities with laser scanning to perform contactless offset measurements with 5 cm accuracy within 15 meters in real time.   Seamless Outdoor and Indoor Surveying   Equipped with a powerful onboard processor, the RS10 provides real-time SLAM capabilities to generate georeferenced point clouds directly in the field without post-processing. Immediate feedback enables users to adjust on the fly to ensure comprehensive scan coverage. The RS10 can map large areas up to 13,000 square meters in real time, ideal for rapid or complex projects where time and accuracy are critical.   Efficient Workflow Without Loop Closure   The integration of GNSS RTK and SLAM removes the need for traditional loop closures which often complicate data collection. The RS10 enables loop-free survey path planning, significantly reducing effort and project times. Transition between outdoor and indoor environments is seamless, using the same coordinate system selectable directly in the field through SmartGo or LandStar software, ensuring consistent accurate data collection.   User Friendliness and Software Integration   The RS10 supports RTK rover users with CHCNAV LandStar software and SLAM scanner users. The hot-swappable battery provides up to 60 minutes runtime. The system provides real-time precision alerts via SmartGo software for instant quality control. Data integrates seamlessly into CHCNAV software ecosystems like CoPre and CoProcess for automatic drawing extraction, intelligent point cloud processing, and efficient feature extraction onsite.   Technical Specifications - RS10 16-Channels   Absolute accuracy: horizontal & vertical < 5 cm RMS   Relative accuracy: < 1 cm   Power supply: lithium battery, supports hot-swapping and portable charger Input voltage: 9–20 V DC Power consumption: < 30 W Battery capacity: 24.48 Wh Working time per battery: 1 hour   Data storage: 512 GB   Field of view: 360° x 270°   Weight: 1.9 kg (including RTK and battery)   Loop-free data acquisition: Yes   Real-time accuracy assessment: Yes   Laser Scanner Laser product classification: Class 1 Eye Safe Range: 0.05 to 120 m Channel: 16 Point cloud thickness: 2 cm Range capability: 80 m at 10% reflectivity (Channels 5-12) 50 m at 10% reflectivity (Channels 1-4, 13-16) Effective measurement rate: Single Return: 320,000 pts/s Dual Return: 640,000 pts/s Max scan speed: 10 Hz Max number of return pulses: 2 Wavelength: 905 nm Horizontal FOV: 360° Horizontal angle resolution: 0.18° (10 Hz) Vertical FOV: 30° (-15° to +15°)   GNSS Performance Channels: 1408 channels with iStar2.0 GPS: L1C/A, L2C, L2P(Y), L5 GLONASS: L1, L2, L3 Galileo: E1, E5a, E5b, E6 BeiDou: B1I, B2I, B3I, B1C, B2a, B2b QZSS: L1C/A, L1C, L2C, L5, L6 NavIC/IRNSS: L5 PPP: B2b-PPP SBAS: EGNOS (L1, L5)   GNSS Accuracies Real-Time Kinematic (RTK): Horizontal: 8 mm + 1 ppm RMS Vertical: 15 mm + 1 ppm RMS Post-processing kinematic (PPK): Horizontal: 3 mm + 1 ppm RMS Vertical: 5 mm + 1 ppm RMS PPP: Horizontal: 10 cm, Vertical: 20 cm High-precision static: Horizontal: 2.5 mm + 0.1 ppm RMS Vertical: 3.5 mm + 0.4 ppm RMS Static and rapid static: Horizontal: 2.5 mm + 0.5 ppm RMS Vertical: 5 mm + 0.5 ppm RMS Code differential: Horizontal 0.4 m RMS, Vertical 0.8 m RMS   IMU IMU update rate: 200 Hz Auto initialization: Yes Attitude accuracy after post-processing: 0.005° RMS pitch/roll, 0.010° RMS heading Position accuracy after post-processing: 0.010 m RMS horizontal, 0.020 m RMS vertical   Camera Number of cameras: 3 Resolution: 15 MP (5 MP*3) Sensor size: 2592 (H) x 1944 (V) Pixel size: 2.0 µm FOV: 210° x 170°   Environments Operating temperature: -20°C to +50°C Storage temperature: -20°C to +60°C Ingress Protection: IP64 (according to IEC 60529) Humidity (operating): 80%, non-condensing   Electrical Input voltage: 9-20 V DC Power consumption: < 30 W Battery capacity: 24.48 Wh   Equipped Software SmartGo: Data acquisition, real-time point cloud display, etc. CoPre: POS process, Adjust & Refine, Generate point cloud, modelling, etc. CoProcess: Building feature extraction, road feature extraction, volume calculation, etc. LandStar Field Survey APP: Topographic survey, point stakeout, line stakeout, elevation check, facade survey

The CHCNAV RS10 3D LiDAR scanner is an innovative, integrated handheld SLAM surveying solution with GNSS RTK that combines laser scanning, GNSS technology, and visual SLAM in a single platform. This advanced combination enables precise and efficient 3D data capture and surveying both indoors and outdoors.   Features:       · Integrated GNSS RTK and SLAM technology for accurate measurements even with weak GNSS signals     · Absolute accuracy of 5 cm and relative accuracy of 1 cm RMS thanks to GNSS RTK, visual SLAM fusion, and high-precision LiDAR     · Real-time generation of georeferenced point clouds with immediate feedback for optimised data capture     · Efficient workflow without loop closure ("loop closure") to improve efficiency by reducing time and lobar     · Wide range of applications from BIM and forestry to powerline inspection and underground surveying     · Software integration with SmartGo and CoPre for real-time visualisation and efficient data processing     · Robust, lightweight IP64-rated housing for use in various environmental conditions     · Hot-swappable battery with up to 60 minutes runtime per battery     · 512 GB storage capacity for large data amounts and data communication via 4G, Wi-Fi, and Bluetooth 4.2   The RS10 targets surveyors, civil engineers, BIM professionals, and users in agriculture, forestry, power line inspection, material volume calculation, and underground data collection. It allows accurate surveying even in weak or no GNSS signal environments, opening new possibilities for complex environments like indoor spaces or urban canyons.   Precision and Technology   The system combines a 4th-generation GNSS antenna with high-precision LiDAR and three HD cameras, achieving an absolute measurement accuracy of 5 cm. The innovative SFix technology allows the RS10 to calculate precise GNSS RTK points from LiDAR and SLAM data within one minute without satellite signals. This achieves unprecedented precision in indoor surveying. Vi-LiDAR technology offers a new RTK surveying method that combines GNSS rover capabilities with laser scanning to perform contactless offset measurements with 5 cm accuracy within 15 meters in real time.   Seamless Outdoor and Indoor Surveying   Equipped with a powerful onboard processor, the RS10 provides real-time SLAM capabilities to generate georeferenced point clouds directly in the field without post-processing. Immediate feedback enables users to adjust on the fly to ensure comprehensive scan coverage. The RS10 can map large areas up to 13,000 square meters in real time, ideal for rapid or complex projects where time and accuracy are critical.   Efficient Workflow Without Loop Closure   The integration of GNSS RTK and SLAM removes the need for traditional loop closures which often complicate data collection. The RS10 enables loop-free survey path planning, significantly reducing effort and project times. Transition between outdoor and indoor environments is seamless, using the same coordinate system selectable directly in the field through SmartGo or LandStar software, ensuring consistent accurate data collection.   User Friendliness and Software Integration   The RS10 supports RTK rover users with CHCNAV LandStar software and SLAM scanner users. The hot-swappable battery provides up to 60 minutes runtime. The system provides real-time precision alerts via SmartGo software for instant quality control. Data integrates seamlessly into CHCNAV software ecosystems like CoPre and CoProcess for automatic drawing extraction, intelligent point cloud processing, and efficient feature extraction onsite.   Technical Specifications - RS10 32-Channels   Absolute accuracy: horizontal & vertical < 5 cm RMS   Relative accuracy: < 1 cm   Power supply: lithium battery, supports hot-swapping and portable charger Input voltage: 9–20 V DC Power consumption: < 30 W Battery capacity: 24.48 Wh Working time per battery: 1 hour   Data storage: 512 GB   Field of view: 360° x 270°   Weight: 1.7 kg (including RTK and battery)   Loop-free data acquisition: Yes   Real-time accuracy assessment: Yes   Laser Scanner Laser classification: Class 1 Eye Safe Range: 0.05 to 300 m Channels: 32 Point cloud density: 1 cm Range capability: 80 m at 10% reflectivity Effective measurement rate: Single return: 640,000 points/s Dual return: 1,280,000 points/s Triple return: 1,920,000 points/s Max scan speed: 10 Hz Max number of pulses: 3 Wavelength: 905 nm Horizontal FOV: 360° Horizontal angle resolution: 0.18° (10 Hz) Vertical FOV: 40.3° (-20.8° to +19.5°)   GNSS Performance Channels: 1408 channels with iStar2.0 GPS: L1C/A, L2C, L2P(Y), L5 GLONASS: L1, L2, L3 Galileo: E1, E5a, E5b, E6 BeiDou: B1I, B2I, B3I, B1C, B2a, B2b QZSS: L1C/A, L1C, L2C, L5, L6 NavIC/IRNSS: L5 PPP: B2b-PPP SBAS: EGNOS (L1, L5)   GNSS Accuracies Real-Time Kinematic (RTK): Horizontal: 8 mm + 1 ppm RMS Vertical: 15 mm + 1 ppm RMS Post-processing kinematic (PPK): Horizontal: 3 mm + 1 ppm RMS Vertical: 5 mm + 1 ppm RMS PPP: Horizontal: 10 cm, Vertical: 20 cm High-precision static: Horizontal: 2.5 mm + 0.1 ppm RMS Vertical: 3.5 mm + 0.4 ppm RMS Static and rapid static: Horizontal: 2.5 mm + 0.5 ppm RMS Vertical: 5 mm + 0.5 ppm RMS Code differential: Horizontal 0.4 m RMS, Vertical 0.8 m RMS   IMU IMU update rate: 200 Hz Auto initialization: Yes Attitude accuracy after post-processing: 0.005° RMS pitch/roll, 0.010° RMS heading Position accuracy after post-processing: 0.010 m RMS horizontal, 0.020 m RMS vertical   Camera Number of cameras: 3 Resolution: 15 MP (5 MP*3) Sensor size: 2592 (H) x 1944 (V) Pixel size: 2.0 µm FOV: 210° x 170°   Environments Operating temperature: -20°C to +50°C Storage temperature: -20°C to +60°C Ingress Protection: IP64 (according to IEC 60529) Humidity (operating): 80%, non-condensing   Electrical Input voltage: 9-20 V DC Power consumption: < 30 W Battery capacity: 24.48 Wh   Equipped Software SmartGo: Data acquisition, real-time point cloud display, etc. CoPre: POS process, Adjust & Refine, Generate point cloud, modelling, etc. CoProcess: Building feature extraction, road feature extraction, volume calculation, etc. LandStar Field Survey APP: Topographic survey, point stakeout, line stakeout, elevation check, facade survey

DJI M400 with up to 6 kg payload and 55 min flight time for surveying, inspection, AI, wildlife rescue, construction, energy, agriculture, RTK, lidar, thermal imaging

EMLID Reach RX2 - All-Band RTK GNSS Rover + PIX4Dcatch + Scanning Kit (Carrying Case + Scanning Handle)   The EMLID Reach RX2 is a compact GNSS rover with tilt compensation and support for all frequency bands. The RX2 maintains centimeter accuracy even at high tilt angles. This is perfect for local and state governments, urban planning, digital twins, water management, nature conservation, and many more.   The EMLID Reach RX2 Scanning Kit comprises a practical scanning handle with hand loop, a protective carrying case with EVA foam inlay and a 3 mm Allen key. The case also provides room for a phone case with SP Connect SPC+  (maximum size 6.9", e.g. case for iPhone 16 Pro Max) that can be used with the smartphone holder. The kit thus contains all the accessories needed to work comfortably with Reach RX2 and provides an integrated solution for PIX4Dcatch. The handle with attached Reach RX2 can be placed in left-handed or right-handed orientations.   PIX4Dcatch is a mobile 3D scanning app that creates precise 3D scans and point clouds by automatically capturing even the smallest details with real-time AR feedback. The 1-year license key is sent separately by email and includes 500 credits for cloud processing and online training. Please note: PIX4Dcatch is only compatible with iOS devices. Supported are all iPhones with iOS version 18.0 or higher, as well as iPad 11-inch (2nd gen and later) and iPad 12.9-inch (2nd gen and later) with iOS version 18.0 or higher (as of November 2025).   Tilt compensation The Reach RX2 introduces tilt compensation to the Reach RX series. This feature allows measurement of points with a tilted pole while maintaining centimetre-level accuracy even in challenging conditions. Its accuracy is specified as RTK + 2 mm + 0.3 mm/°. Initialisation time is significantly reduced compared to the RS3 due to an enhanced algorithm.   The tilt compensation mechanism performs well near large metal structures, vehicles, and electronics because the IMU chip inside does not rely on a magnetometer, making it immune to magnetic disturbances. Each unit is factory-calibrated individually, requiring no additional user calibration.   All-band support The RX2’s GNSS chip supports all current constellations and bands, including GPS L5, GLONASS, Galileo, Beidou-3, QZSS and NavIC with 672 channels available. It features a new, more powerful GNSS antenna for improved reception. Together, the chip and antenna enable the RX2 to work effectively even under tree canopies. The device supports RTK positioning via NTRIP, providing centimetre-level accuracy. Users simply connect to NTRIP, and the device handles the rest. Tilt compensation and the strong antenna ensure reliable accuracy in nearly any environment.   Light, robust and enduring Despite weighing less than a smartphone, the RX2 is durable and powerful. ● IP68 rating: water resistance in fresh water up to 1.5 meters depth for 30 minutes ● Provides up to 16 hours of operation on a single battery charge   Compatibility with iOS and Android With Apple MFi certification, RX2 connects natively and reliably to iPhones and iPads. It also works seamlessly with Android devices.   Ready for data collection and design layout Every RX2 comes with Emlid Flow, a user-friendly app for iOS and Android that assists with a variety of field tasks in areas such as construction, utilities, GIS and landscaping. All your data is instantly synced to the cloud, meaning your office team always has the latest updates.   Use Cases & Application Scenarios:   Designed to make high-precision positioning accessible even to non-professional users, the RX2 is suitable for many industries where accurate coordinates are needed but GNSS is not the primary tool. The RX2 is simple enough for newcomers to GNSS to get started, yet professional and reliable enough for demanding fieldwork. It can operate almost anywhere with an internet connection and access to an NTRIP service.   Compatible with Esri and other GIS apps The RX2 can significantly improve the accuracy of GIS applications. The RX2 fits perfectly into existing GIS workflows through integration with various GIS apps for iOS and Android. Chief among them are QField, Mergin Maps as well as ArcGIS Field Maps, Survey123, and QuickCapture from Esri.   Utility Utility operations often involve trenches and hard-to-reach areas, making compactness and tilt compensation especially valuable. When fitted with a handle and paired with a compatible scanning app, the RX2 can also be used for terrestrial scanning. Users can measure dimensions and volumes of excavated earth or efficiently monitor project progress.   Construction Everyday tasks such as staking fences, checking elevations, placing utility markers, and collecting site checkpoints can be handled by team members with no prior surveying experience using the RX2. The RX2 scales easily across teams thanks to its ease of use, reducing both training time and the risk of errors. The Emlid Flow software covers almost all construction workflows, from topography to layout, and provides tools for team collaboration.   Landscaping The RX2 delivers centimetre-level accuracy and simplicity, allowing users to work faster and make more informed decisions. Regardless of preexisting software, Emlid Flow enhances efficiency in topographic capture, design preparation, and layout tasks through its powerful field data collection and CAD integration features.   Terrestrial scanning The RX2 is compatible with PIX4Dcatch and other scanning apps to capture precise 3D models of buildings, surfaces, and hard-to-reach areas. These capabilities make it ideal for utility mapping, volume calculations, and as-built documentation.   Technical Specifications RX2:   Mechanical ● Dimensions: 172 x 51 x 51 mm ● Mount: 5/8”-11 UNC and quick release ● Weight: 280 g (0.62 lb) ● Operating temperature: -20 to +65 °C (-4 to 149 °F) ● Ingress protection: IP68 (maximum depth of 1.5 meters up to 30 minutes)   Electrical ● Autonomy: Up to 16 hrs ● Battery: Li-Ion 7000 mAh, 3.6 V, 25.2 Wh ● Charging: USB Type-C 5 V 2 A ● Certification: FCC, CE, IC, MFi   Positioning ● RTK accuracy: H: 7 mm + 1 ppm | V: 14 mm + 1 ppm ● Tilt accuracy: RTK + 2 mm + 0.3 mm/° ● Convergence time: ~5 s typically   Connectivity ● Communication interface: Bluetooth 4.2 (BR/EDR + LE) ● Ports: USB Type-C port   Data ● Input data format: RTCM3 ● Input data protocol: NTRIP ● Position data format: NMEA   GNSS ● Signal tracked: GPS: L1C/A, L2C, L5 GLONASS: L1OF, L2OF Galileo: E1-B/C, E5a, E6 BeiDou: B1I, B1C, B2a, B3I QZSS: L1C/A, L1C/B11, L2C, L5 NavIC: L1-SPS Data, L5-SPS ● Number of channels: 672 ● Update rates: 5 Hz   Case Specifications:       · Outer case material: shock-resistant EVA laminated with water-resistant polyester fabric.     · Dimensions: 365 x 210 x 95 (mm)     · Weight: 0.65 kg     · Handle can be placed in both left handed and right handed orientations

The EMLID Reach RX2 is a compact GNSS rover with tilt compensation and support for all frequency bands. The RX2 maintains centimeter accuracy even at high tilt angles. This is perfect for local and state governments, urban planning, digital twins, water management, nature conservation, and many more.   Tilt compensation The Reach RX2 introduces tilt compensation to the Reach RX series. This feature allows measurement of points with a tilted pole while maintaining centimetre-level accuracy even in challenging conditions. Its accuracy is specified as RTK + 2 mm + 0.3 mm/°. Initialisation time is significantly reduced compared to the RS3 due to an enhanced algorithm.   The tilt compensation mechanism performs well near large metal structures, vehicles, and electronics because the IMU chip inside does not rely on a magnetometer, making it immune to magnetic disturbances. Each unit is factory-calibrated individually, requiring no additional user calibration.   All-band support The RX2’s GNSS chip supports all current constellations and bands, including GPS L5, GLONASS, Galileo, Beidou-3, QZSS and NavIC with 672 channels available. It features a new, more powerful GNSS antenna for improved reception. Together, the chip and antenna enable the RX2 to work effectively even under tree canopies. The device supports RTK positioning via NTRIP, providing centimetre-level accuracy. Users simply connect to NTRIP, and the device handles the rest. Tilt compensation and the strong antenna ensure reliable accuracy in nearly any environment.   Light, robust and enduring Despite weighing less than a smartphone, the RX2 is durable and powerful. ● IP68 rating: water resistance in fresh water up to 1.5 meters depth for 30 minutes ● Provides up to 16 hours of operation on a single battery charge   Compatibility with iOS and Android With Apple MFi certification, RX2 connects natively and reliably to iPhones and iPads. It also works seamlessly with Android devices.   Ready for data collection and design layout Every RX2 comes with Emlid Flow, a user-friendly app for iOS and Android that assists with a variety of field tasks in areas such as construction, utilities, GIS and landscaping. All your data is instantly synced to the cloud, meaning your office team always has the latest updates.   Use Cases & Application Scenarios:   Designed to make high-precision positioning accessible even to non-professional users, the RX2 is suitable for many industries where accurate coordinates are needed but GNSS is not the primary tool. The RX2 is simple enough for newcomers to GNSS to get started, yet professional and reliable enough for demanding fieldwork. It can operate almost anywhere with an internet connection and access to an NTRIP service.   Compatible with Esri and other GIS apps The RX2 can significantly improve the accuracy of GIS applications. The RX2 fits perfectly into existing GIS workflows through integration with various GIS apps for iOS and Android. Chief among them are QField, Mergin Maps as well as ArcGIS Field Maps, Survey123, and QuickCapture from Esri.   Utility Utility operations often involve trenches and hard-to-reach areas, making compactness and tilt compensation especially valuable. When fitted with a handle and paired with a compatible scanning app, the RX2 can also be used for terrestrial scanning. Users can measure dimensions and volumes of excavated earth or efficiently monitor project progress.   Construction Everyday tasks such as staking fences, checking elevations, placing utility markers, and collecting site checkpoints can be handled by team members with no prior surveying experience using the RX2. The RX2 scales easily across teams thanks to its ease of use, reducing both training time and the risk of errors. The Emlid Flow software covers almost all construction workflows, from topography to layout, and provides tools for team collaboration.   Landscaping The RX2 delivers centimetre-level accuracy and simplicity, allowing users to work faster and make more informed decisions. Regardless of preexisting software, Emlid Flow enhances efficiency in topographic capture, design preparation, and layout tasks through its powerful field data collection and CAD integration features.   Terrestrial scanning The RX2 is compatible with PIX4Dcatch and other scanning apps to capture precise 3D models of buildings, surfaces, and hard-to-reach areas. These capabilities make it ideal for utility mapping, volume calculations, and as-built documentation.   Technical Specifications:   Mechanical ● Dimensions: 172 x 51 x 51 mm ● Mount: 5/8”-11 UNC and quick release ● Weight: 280 g (0.62 lb) ● Operating temperature: -20 to +65 °C (-4 to 149 °F) ● Ingress protection: IP68 (maximum depth of 1.5 meters up to 30 minutes)   Electrical ● Autonomy: Up to 16 hrs ● Battery: Li-Ion 7000 mAh, 3.6 V, 25.2 Wh ● Charging: USB Type-C 5 V 2 A ● Certification: FCC, CE, IC, MFi   Positioning ● RTK accuracy: H: 7 mm + 1 ppm | V: 14 mm + 1 ppm ● Tilt accuracy: RTK + 2 mm + 0.3 mm/° ● Convergence time: ~5 s typically   Connectivity ● Communication interface: Bluetooth 4.2 (BR/EDR + LE) ● Ports: USB Type-C port   Data ● Input data format: RTCM3 ● Input data protocol: NTRIP ● Position data format: NMEA   GNSS ● Signal tracked: GPS: L1C/A, L2C, L5 GLONASS: L1OF, L2OF Galileo: E1-B/C, E5a, E6 BeiDou: B1I, B1C, B2a, B3I QZSS: L1C/A, L1C/B11, L2C, L5 NavIC: L1-SPS Data, L5-SPS ● Number of channels: 672 ● Update rates: 5 Hz

EMLID Reach RX2 All-Band RTK GNSS Rover with Scanning Kit (Carrying Case + Scanning Handle)   The EMLID Reach RX2 is a compact GNSS rover with tilt compensation and support for all frequency bands. The RX2 maintains centimeter accuracy even at high tilt angles. This is perfect for local and state governments, urban planning, digital twins, water management, nature conservation, and many more.   The EMLID Reach RX2 Scanning Kit comprises a practical scanning handle with hand loop, a protective carrying case with EVA foam inlay and a 3 mm Allen key. The case also provides room for a phone case with SP Connect SPC+  (maximum size 6.9", e.g. case for iPhone 16 Pro Max) that can be used with the smartphone holder. The kit thus contains all the accessories needed to work comfortably with Reach RX2 and provides an integrated solution for PIX4Dcatch. The handle with attached Reach RX2 can be placed in left-handed or right-handed orientations.   Tilt compensation The Reach RX2 introduces tilt compensation to the Reach RX series. This feature allows measurement of points with a tilted pole while maintaining centimetre-level accuracy even in challenging conditions. Its accuracy is specified as RTK + 2 mm + 0.3 mm/°. Initialisation time is significantly reduced compared to the RS3 due to an enhanced algorithm.   The tilt compensation mechanism performs well near large metal structures, vehicles, and electronics because the IMU chip inside does not rely on a magnetometer, making it immune to magnetic disturbances. Each unit is factory-calibrated individually, requiring no additional user calibration.   All-band support The RX2’s GNSS chip supports all current constellations and bands, including GPS L5, GLONASS, Galileo, Beidou-3, QZSS and NavIC with 672 channels available. It features a new, more powerful GNSS antenna for improved reception. Together, the chip and antenna enable the RX2 to work effectively even under tree canopies. The device supports RTK positioning via NTRIP, providing centimetre-level accuracy. Users simply connect to NTRIP, and the device handles the rest. Tilt compensation and the strong antenna ensure reliable accuracy in nearly any environment.   Light, robust and enduring Despite weighing less than a smartphone, the RX2 is durable and powerful. ● IP68 rating: water resistance in fresh water up to 1.5 meters depth for 30 minutes ● Provides up to 16 hours of operation on a single battery charge   Compatibility with iOS and Android With Apple MFi certification, RX2 connects natively and reliably to iPhones and iPads. It also works seamlessly with Android devices.   Ready for data collection and design layout Every RX2 comes with Emlid Flow, a user-friendly app for iOS and Android that assists with a variety of field tasks in areas such as construction, utilities, GIS and landscaping. All your data is instantly synced to the cloud, meaning your office team always has the latest updates.   Use Cases & Application Scenarios:   Designed to make high-precision positioning accessible even to non-professional users, the RX2 is suitable for many industries where accurate coordinates are needed but GNSS is not the primary tool. The RX2 is simple enough for newcomers to GNSS to get started, yet professional and reliable enough for demanding fieldwork. It can operate almost anywhere with an internet connection and access to an NTRIP service.   Compatible with Esri and other GIS apps The RX2 can significantly improve the accuracy of GIS applications. The RX2 fits perfectly into existing GIS workflows through integration with various GIS apps for iOS and Android. Chief among them are QField, Mergin Maps as well as ArcGIS Field Maps, Survey123, and QuickCapture from Esri.   Utility Utility operations often involve trenches and hard-to-reach areas, making compactness and tilt compensation especially valuable. When fitted with a handle and paired with a compatible scanning app, the RX2 can also be used for terrestrial scanning. Users can measure dimensions and volumes of excavated earth or efficiently monitor project progress.   Construction Everyday tasks such as staking fences, checking elevations, placing utility markers, and collecting site checkpoints can be handled by team members with no prior surveying experience using the RX2. The RX2 scales easily across teams thanks to its ease of use, reducing both training time and the risk of errors. The Emlid Flow software covers almost all construction workflows, from topography to layout, and provides tools for team collaboration.   Landscaping The RX2 delivers centimetre-level accuracy and simplicity, allowing users to work faster and make more informed decisions. Regardless of preexisting software, Emlid Flow enhances efficiency in topographic capture, design preparation, and layout tasks through its powerful field data collection and CAD integration features.   Terrestrial scanning The RX2 is compatible with PIX4Dcatch and other scanning apps to capture precise 3D models of buildings, surfaces, and hard-to-reach areas. These capabilities make it ideal for utility mapping, volume calculations, and as-built documentation.   Technical Specifications RX2:   Mechanical ● Dimensions: 172 x 51 x 51 mm ● Mount: 5/8”-11 UNC and quick release ● Weight: 280 g (0.62 lb) ● Operating temperature: -20 to +65 °C (-4 to 149 °F) ● Ingress protection: IP68 (maximum depth of 1.5 meters up to 30 minutes)   Electrical ● Autonomy: Up to 16 hrs ● Battery: Li-Ion 7000 mAh, 3.6 V, 25.2 Wh ● Charging: USB Type-C 5 V 2 A ● Certification: FCC, CE, IC, MFi   Positioning ● RTK accuracy: H: 7 mm + 1 ppm | V: 14 mm + 1 ppm ● Tilt accuracy: RTK + 2 mm + 0.3 mm/° ● Convergence time: ~5 s typically   Connectivity ● Communication interface: Bluetooth 4.2 (BR/EDR + LE) ● Ports: USB Type-C port   Data ● Input data format: RTCM3 ● Input data protocol: NTRIP ● Position data format: NMEA   GNSS ● Signal tracked: GPS: L1C/A, L2C, L5 GLONASS: L1OF, L2OF Galileo: E1-B/C, E5a, E6 BeiDou: B1I, B1C, B2a, B3I QZSS: L1C/A, L1C/B11, L2C, L5 NavIC: L1-SPS Data, L5-SPS ● Number of channels: 672 ● Update rates: 5 Hz   Case Specifications:       · Outer case material: shock-resistant EVA laminated with water-resistant polyester fabric.     · Dimensions: 365 x 210 x 95 (mm)     · Weight: 0.65 kg     · Handle can be placed in both left handed and right handed orientations

DJI Zenmuse L3 Long-Range LiDAR System with Highest Accuracy   The DJI Zenmuse L3 is a state-of-the-art, next-generation aerial LiDAR system delivering exceptional range and accuracy. Its 1535 nm LiDAR sensor reaches up to 950 meters even on targets with only 10% reflectivity. Dual 100-megapixel RGB mapping cameras and a high-precision Position and Orientation System (POS) accelerate geospatial data acquisition, enabling daily coverage of up to 100 km².   1535 nm Long-Range LiDAR: Extended Range, Broad Coverage The Zenmuse L3 achieves a maximum detection range of 950 meters at 100 kHz pulse frequency under 100 klx ambient light and 10% reflectivity. The adjustable pulse frequency provides flexible power output, optimizing performance for various operational scenarios. Typical flight altitudes between 300 and 500 meters increase coverage per flight and significantly improve mapping efficiency.   Small Measurement Point, High Pulse Energy With a laser beam divergence of only 0.25 mrad (1/e²), the laser footprint diameter at distance is about one-fifth that of the Zenmuse L2. This enables clear detection of smaller objects such as power lines or branches. The higher energy density improves penetration, increases ground point density, and allows precise reconstruction of complex terrain.   High Pulse Repetition Rate, Multiple Returns With up to 2 million pulses per second and support for up to 16 returns, the Zenmuse L3 delivers accurate 3D spatial reconstructions. Point density and penetration level can be flexibly adapted to meet specific application requirements.   Flexible Scanning Modes The system supports linear, star-shaped, and non-repetitive scanning modes for various applications:      · Linear: uniform point cloud distribution for precise terrain modeling     · Star-shaped: balances accuracy with high penetration, ideal for forests or urban areas     · Non-repetitive: wide scan angle and extensive coverage, optimized for powerline and structural inspections   Dual 100 MP RGB Camera System Equipped with two 100 MP 4/3 CMOS sensors and mechanical shutters, the L3 significantly improves accuracy and efficiency. Pixel binning supports an effective resolution of 25 MP with larger pixels, ensuring vivid colors even in low-light conditions.   107° Ultra-Wide Field of View The dual RGB cameras offer up to 107° horizontal field of view, capturing a larger area per image. Even with 20% LiDAR overlap, digital orthophoto maps (DOM) and digital elevation models (DEM) can be acquired simultaneously in a single flight, greatly boosting productivity.   Accuracy Meets Efficiency The enhanced Position and Orientation System (POS) achieves post-processing accuracy of 0.02° yaw and 0.01° pitch. The LiDAR offers ranging repeatability of 5 mm at 150 m and microsecond timing for highly precise results. Vertical accuracy is under 3 cm at 120 m altitude, under 5 cm at 300 m, and under 10 cm at 500 m suitable for mapping scales from 1:500 to 1:2000. With a ground sample distance (GSD) of 3 cm at 300 m altitude, the L3 enables precise mapping even without ground control points (GCP).   High Point Density, Strong Penetration & High Efficiency Thanks to smaller laser footprints and higher pulse energy, the L3 captures significantly more ground points beneath vegetation, enhancing detail, accuracy, and model completeness. Combined with the DJI Matrice 400, the Zenmuse L3 covers up to 10 km² per flight and up to 100 km² daily. Multiple data types, such as point clouds, orthophotos, and 3D models, can be collected in a single mission.   DJI Terra Integration: PPK, LiDAR Gaussian Splatting & Fusion-Based Modeling DJI Terra provides integrated PPK (Post-Processed Kinematic) data processing for centimeter-level positioning accuracy, even without RTK availability. The software supports local PPK processing for RGB imagery and LiDAR data. Advanced Gaussian Splatting technology produces highly detailed and realistic 3D models. Fusion of LiDAR and RGB data in a single dataset enables simultaneous generation of high-accuracy point clouds, 2D maps, and 3D mesh models. This data fusion approach improves model completeness, especially for complex structures, meeting the needs of energy, transportation, and infrastructure sectors.   Integrated End-to-End Solution The L3 works seamlessly within the DJI ecosystem from data capture and PPK post-processing in DJI Terra to cloud analysis in DJI FlightHub 2. Real-time point cloud previews, live measurements, and flexible split-screen views increase mission efficiency and safety.   Secure Data Processing CFexpress card encryption and AES-256 video transmission encryption protect sensitive data. The Matrice 400 also supports one-click log clearing for added security.   Typical Applications Topographic surveying, civil and geotechnical engineering, geological studies and hazard mapping, forestry and vegetation analysis, energy and powerline inspections, mining and infrastructure surveying.   Please note: The DJI Zenmuse L3 is only compatible with the DJI Matrice 400 due to the payload weight of 1.6 kg, the new gimbal bracket with anti-drop gimbal rails, and the higher power consumption of the 1535 nm laser.

Weatherproof, vehicle-mountable drone hangar with robust IP56 protection from -30 to 50 °C for flexible operations with DJI Matrice 4D/4TD

Weatherproof, vehicle-mountable drone hangar with robust IP56 protection from -30 to 50 °C for flexible operations with DJI Matrice 4D/4TD

Weatherproof, vehicle-mountable drone hangar with robust IP56 protection from -30 to 50 °C for flexible operations with DJI Matrice 4D/4TD

Weatherproof, vehicle-mountable drone hangar with robust IP56 protection from -30 to 50 °C for flexible operations with DJI Matrice 4D/4TD

Weatherproof, vehicle-mountable drone hangar with robust IP56 protection from -30 to 50 °C for flexible operations with DJI Matrice 4D/4TD

Weatherproof, vehicle-mountable drone hangar with robust IP56 protection from -30 to 50 °C for flexible operations with DJI Matrice 4D/4TD

Weatherproof, vehicle-mountable drone hangar with robust IP56 protection from -30 to 50 °C for flexible operations with DJI Matrice 4D/4TD

Weatherproof, vehicle-mountable drone hangar with robust IP56 protection from -30 to 50 °C for flexible operations with DJI Matrice 4D/4TD

EMLID Reach RS4 Base and Rover Kit (RS4 Pro + RS4 + many Accessories)   A powerful RTK set: the Reach RS4 base and the Reach RS4 Pro rover.   Build a powerful RTK GNSS setup with this versatile kit. Use the RS4 as a fixed base station and pair it with the RS4 Pro, which is equipped with dual cameras, as your rover. Together, they provide accurate positioning and effortless stakeout, making them ideal for surveying, mapping and advanced fieldwork.

The EMLID Reach RS4 is an all-band RTK GNSS receiver with tilt compensation (IMU) that maintains ultimate precision even in challenging conditions and under dense tree canopies. It offers RTK accuracy of 7 mm + 1 ppm, and with tilt compensation achieves 2 mm + 0.3 mm/° precision. Operating as both base and rover, it supports 915 MHz LoRa and 450 MHz UHF NTRIP communication.   Powered by a Li_Ion battery, the RS4 runs up to 16 hours on a single charge, with USB Type_C charging available. Its magnesium alloy body, IP68 dust_ and waterproof rating, and wide operating temperature range from _40 °C to +65 °C make it ideal for harsh field conditions.   High Accuracy With 672 channels, the EMLID Reach RS4 can track 40+ satellites at a time from all major constellations (GPS, GLONASS, Galileo, BeiDou, QZSS, and NavIC). With support for L1, L2, and the lower L5 and L6 band frequencies, it ensures strong multipath resistance and reliable signal reception. The Reach RS4 thus delivers reliable performance and centimeter-level accuracy with 7 mm + 1 ppm precision in RTK mode. The receiver achieves a fixed RTK solution in less than 5 seconds, providing fast and dependable positioning in the field.   Next-gen tilt compensation The Reach RS4 comes factory_calibrated, ensuring instant readiness with no need for field adjustments. Its tilt compensation works reliably under all conditions and is immune to magnetic interference, maintaining accuracy even near metal objects. With faster initialisation and no angle limit, it provides precise measurements even at steep tilts. The compensation mechanism activates with just a few moves and remains stable throughout the survey, saving time and avoiding the need for recalibration.   Base and rover The Reach RS4 can operate as both base and rover, supporting RTK work with VRS or a single baseline CORS network in RTCM3 format.  You can also connect another GNSS receiver as an NTRIP base using EMLID NTRIP Caster.  It features a dual_band radio system:      · UHF 450 MHz for transmit and receive, with up to 2 W output (may require a license), compatible with Reach and 3rd_party receivers that support TRIMTALK 450S.      · LoRa 915 MHz for transmit and receive, with up to 1 W output (license_free in North America), compatible with Reach receivers.   Built to perform in extreme conditions The Reach RS4's magnesium alloy body is both light and exceptionally durable, similar to materials used in aerospace and high-end electronics. This combination ensures strength and ease of handling, even in the toughest environments. With up to 16 hours of continuous operation on a single charge, the RS4 is designed for long field days. It can be recharged via USB-C or powered by a portable power bank for added flexibility.   Thanks to its IP68 rating, the receiver is completely dustproof and waterproof, continuing to operate reliably in rain, snow, or dusty construction sites. Operating temperatures range from -40°C to +65°C, ensuring consistent performance in both extreme cold and intense heat.   Software for every stage of your project The Reach RS4 includes EMLID Flow, a complete mobile and cloud-based solution compatible with iOS and Android. It keeps your team coordinated and your projects running smoothly while supporting all essential site tasks.   With EMLID Flow, you can coordinate your team by inviting members, sharing projects, and managing access. Monitor field progress directly from the office and exchange data in real time with automatic synchronisation. The unified workflow ensures consistent data, a familiar interface, and no need for additional training.   On site, EMLID Flow enables you to carry out key surveying tasks efficiently:       · Topographic surveys for precise terrain and elevation data     · Stakeout and layout operations for placing points, lines, and markers     · Line and road surveys for staking centerlines and offsets     · Cut and fill calculations for measuring earthworks and stockpiles     · As-built verification to ensure structures match design plans   Technical Specifications:    Mechanical     ·  Dimensions: 128.6 x 128.6 x 99.3 mm     ·  Weight: 920 g (2.028 lb)     ·  Operating temperature: -40 to +65 °C     ·  Ingress protection: IP68    Electrical     ·  Autonomy: 16 hrs as RTK rover with tilt     ·  Battery: Li-Ion 5000 mAh, 7.2 V, 36 Wh     ·  Charging: USB Type-C (PD): 5V—3A, 9V—3A, 12V—3A, 15V—3A    Positioning     ·  Static: H: 4 mm + 0.5 ppm | V: 8 mm + 1 ppm     ·  PPK: H: 5 mm + 0.5 ppm | V: 10 mm + 1 ppm     ·  RTK: H: 7 mm + 1 ppm | V: 14 mm + 1 ppm     ·  Tilt compensation: RTK + 2 mm + 0.3 mm/°     ·  Convergence time: ~5 s typically    Connectivity     ·  LoRa radio: up to 1W     ·  Frequency range: 868/915 MHz     ·  Power: 0.1 W     ·  Distance: Up to 8 km     ·  UHF radio: up to 2W     ·  Frequency range: 410 - 470 MHz     ·  Protocols: TRIMTALK 450S     ·  Modulation type: GMSK     ·  LTE modem     ·  Regions: Global     ·  Bands: FDD-LTE: 1, 2, 3, 4, 5, 7, 8, 12, 13, 18, 19, 20, 26, 28 TD-LTE: 38, 39, 40, 41 UMTS (UHPS/FDD): 1, 2, 5, 8 Quad-band, 850/1900, 900/1800 MHz     ·  SIM card: Nano-SIM     ·  Wi-Fi: 802.11 b/g/n     ·  Bluetooth: Bluetooth 5.1 (BR/EDR + LE)     ·  Ports: RS-232, USB Type-C  *Use the correct antenna, LoRa or UHF, for your setup    Data protocols     ·  Corrections: NTRIP, RTCM3     ·  Position output: NMEA, LLH/XYZ     ·  Data logging: RINEX, NMEA, LLH/XYZ, UBX     ·  Internal storage: 16 GB    GNSS     ·  Signal tracked: GPS: L1C/A, L2C, L5, GLONASS: L1OF, L2OF, Galileo: E1-B/C, E5a, E6, BeiDou: B1I, B1C, B2a, B3I, QZSS: L1C/A, L1C/B11, L2C, L5, NavIC: L1-SPS Data, L5-SPS     ·  Number of channels: 672     ·  Update rates: up to 10 Hz

The EMLID Reach RS4 Pro is an all-band RTK GNSS receiver with dual cameras for visual stakeout and remote point capture for faster and safer work. It also features tilt compensation (IMU) that maintains ultimate precision even in challenging conditions and under dense tree canopies. It offers RTK accuracy of 7 mm + 1 ppm, and with tilt compensation achieves 2 mm + 0.3 mm/° precision. Operating as both base and rover, it supports 915 MHz LoRa and 450 MHz UHF NTRIP communication.   Powered by a Li_Ion battery, the RS4 Pro runs up to 16 hours on a single charge, with USB Type_C charging available. Its magnesium alloy body, IP68 dust_ and waterproof rating, and wide operating temperature range from _40 °C to +65 °C make it ideal for harsh field conditions.   Discover the new way to survey with dual cameras The Reach RS4 Pro introduces a new way to survey with its dual Full HD cameras, extending capabilities beyond traditional RTK. Stakeout is faster and more intuitive with AR guidance, as your design is overlaid directly on the real world, showing exactly where to place stakes rather than just following a map. Features like dynamic navigation, auto bullseye view, cut & fill indicators, and quick point switching help crews work more efficiently, even on complex construction sites and roadworks.   The RS4 Pro also enables measurement from images, allowing you to capture data from locations where you cannot place the survey pole. Building facades, areas behind fences, across busy roads, over water, past hedges, above pits, and around machinery can all be measured without physical access. This eliminates the need to set up a total station for such tasks and helps avoid hazardous areas.   Unmatched Precision With 672 channels, the EMLID Reach RS4 Pro can track 40+ satellites at a time from all major constellations (GPS, GLONASS, Galileo, BeiDou, QZSS, and NavIC). With support for L1, L2, and the lower L5 and L6 band frequencies, it ensures strong multipath resistance and reliable signal reception. The Reach RS4 Pro thus delivers reliable performance and centimeter-level accuracy with 7 mm + 1 ppm precision in RTK mode. The receiver achieves a fixed RTK solution in less than 5 seconds, providing fast and dependable positioning in the field.   Next-gen tilt compensation The Reach RS4 Pro comes factory_calibrated, ensuring instant readiness with no need for field adjustments. Its tilt compensation works reliably under all conditions and is immune to magnetic interference, maintaining accuracy even near metal objects. With faster initialisation and no angle limit, it provides precise measurements even at steep tilts. The compensation mechanism activates with just a few moves and remains stable throughout the survey, saving time and avoiding the need for recalibration.   Base and rover connectivity The Reach RS4 Pro can operate as both base and rover, supporting RTK work with VRS or a single baseline CORS network in RTCM3 format.  You can also connect another GNSS receiver as an NTRIP base using EMLID NTRIP Caster.  It features a dual_band radio system:      · UHF 450 MHz for transmit and receive, with up to 2 W output (may require a license), compatible with Reach and 3rd_party receivers that support TRIMTALK 450S.      · LoRa 915 MHz for transmit and receive, with up to 1 W output (license_free in North America), compatible with Reach receivers.   Engineered for the harshest environments The Reach RS4 Pro's magnesium alloy body is both light and exceptionally durable, similar to materials used in aerospace and high-end electronics. This combination ensures strength and ease of handling, even in the toughest environments. With up to 16 hours of continuous operation on a single charge, the RS4 Pro is designed for long field days. It can be recharged via USB-C or powered by a portable power bank for added flexibility.   Thanks to its IP68 rating, the receiver is completely dustproof and waterproof, continuing to operate reliably in rain, snow, or dusty construction sites. Operating temperatures range from -40°C to +65°C, ensuring consistent performance in both extreme cold and intense heat.   Software for every stage of your project The Reach RS4 Pro includes EMLID Flow, a complete mobile and cloud-based solution compatible with iOS and Android. It keeps your team coordinated and your projects running smoothly while supporting all essential site tasks.   With EMLID Flow, you can coordinate your team by inviting members, sharing projects, and managing access. Monitor field progress directly from the office and exchange data in real time with automatic synchronisation. The unified workflow ensures consistent data, a familiar interface, and no need for additional training.   On site, EMLID Flow enables you to carry out key surveying tasks efficiently:       · Topographic surveys for precise terrain and elevation data     · Stakeout and layout operations for placing points, lines, and markers     · Line and road surveys for staking centerlines and offsets     · Cut and fill calculations for measuring earthworks and stockpiles     · As-built verification to ensure structures match design plans   Technical Specifications:   Imaging     ·  Image sensors: 1/2.6 in, CMOS, global shutter, Full HD Field of view:     ·  Front camera: H: 64.6°, V: 42.8°     ·  Bottom camera: H: 63°, V: 42°     ·  Video frame rate: 25 fps    Mechanical     ·  Dimensions: 128.6 x 128.6 x 99.3 mm     ·  Weight: 920 g (2.028 lb)     ·  Operating temperature: -40 to +65 °C (-40 to 149 °F)     ·  Ingress protection: IP68    Electrical     ·  Autonomy: 16 hrs as RTK rover with tilt     ·  Battery: Li-Ion 5000 mAh, 7.2 V, 36 Wh     ·  Charging: USB Type-C (PD): 5V—3A, 9V—3A, 12V—3A, 15V—3A    Positioning     ·  Static: H: 4 mm + 0.5 ppm | V: 8 mm + 1 ppm     ·  PPK: H: 5 mm + 0.5 ppm | V: 10 mm + 1 ppm     ·  RTK: H: 7 mm + 1 ppm | V: 14 mm + 1 ppm     ·  Tilt compensation: RTK + 2 mm + 0.3 mm/°     ·  Convergence time: ~5 s typically    Connectivity     ·  LoRa radio: up to 1W     ·  Frequency range: 868/915 MHz     ·  Power: 0.1 W     ·  Distance: Up to 8 km     ·  UHF radio: up to 2W     ·  Frequency range: 410 - 470 MHz     ·  Protocols: TRIMTALK 450S     ·  Modulation type: GMSK     ·  LTE modem     ·  Regions: Global     ·  Bands: FDD-LTE: 1, 2, 3, 4, 5, 7, 8, 12, 13, 18, 19, 20, 26, 28 TD-LTE: 38, 39, 40, 41 UMTS (UHPS/FDD): 1, 2, 5, 8 Quad-band, 850/1900, 900/1800 MHz     ·  SIM card: Nano-SIM     ·  Wi-Fi: 802.11 b/g/n     ·  Bluetooth: Bluetooth 5.1 (BR/EDR + LE)     ·  Ports: RS-232, USB Type-C  *Use the correct antenna, LoRa or UHF, for your setup    Data protocols     ·  Corrections: NTRIP, RTCM3     ·  Position output: NMEA, LLH/XYZ     ·  Data logging: RINEX, NMEA, LLH/XYZ, UBX     ·  Internal storage: 16 GB    GNSS     ·  Signal tracked: GPS: L1C/A, L2C, L5, GLONASS: L1OF, L2OF, Galileo: E1-B/C, E5a, E6, BeiDou: B1I, B1C, B2a, B3I, QZSS: L1C/A, L1C/B11, L2C, L5, NavIC: L1-SPS Data, L5-SPS     ·  Number of channels: 672     ·  Update rates: up to 10 Hz

The SHARE SLAM S20 is a handheld, ultra-compact 3D LiDAR scanner that delivers high-precision 3D point clouds in real-time with color information. It combines two high-quality 16-megapixel CMOS cameras with a mechanical shutter to produce distortion-free, true-color images for realistic color enrichment of the point clouds. The scanner uses proprietary LiDAR-SLAM and Visual-SLAM algorithms that enable precise positioning and environmental reconstruction even in complex scenarios. An integrated RTK and GNSS module provides georeferenced survey data with an accuracy of up to 1 cm, without the need for external antennas or 4G cards.   Weighing only about 1.08 kg and featuring an ergonomic design, the SHARE SLAM S20 offers flexibility and mobility ideal for demanding surveying tasks in architecture, construction, forestry, and industry. The battery life of up to 150 minutes allows long operating times, with fast charging via USB-C for short recharge intervals. The scanner supports WIFI 6 and Bluetooth for fast data transfer and includes 256 GB of storage, expandable via SD card. Its open hardware interfaces and SDK enable seamless integration into existing workflows as well as custom adaptations.   SHARE offers comprehensive software for the SLAM S20: SHARE Capture (iOS and Android) is a mobile app for controlling the scanner and capturing data directly on a smartphone or tablet. SHARE PointClouds Studio (PC) is desktop software for post-processing, visualizing, and exporting point clouds and image data, supporting various formats such as PCD, PLY, and LAS. SHARE Data Manager is an additional tool for data management and export.   The SHARE SLAM S20 is optimized for modern 3D modeling methods, including Gaussian Splatting and photogrammetric workflows, and integrates easily into BIM and CAD systems. The combination of high-resolution camera, precise LiDAR sensor, and powerful software makes it a powerful tool for professional, efficient, and versatile 3D surveying.   Technical Specifications SHARE SLAM S20       · Weight: 1079 g (main unit), 350 g (handle battery)     · Dimensions: 110.5 × 140 × 313.3 mm     · Battery: 45.36 Wh / 3150 mAh, runtime up to 150 min     · Charging port: USB-C, PD 30W fast charging     · Cameras: 2 × 16 MP, 1-inch CMOS sensors, mechanical shutter     · Image size: 3504 × 4672, JPG format     · LiDAR point density: approx. 200,000 points/sec, point cloud thickness ≤ 1 cm     · Scan range: 0.1–40 m (10% reflectivity), up to 70 m (80% reflectivity)     · Accuracy: relative accuracy ≤ 1 cm, absolute accuracy ≤ 5 cm     · RTK accuracy: horizontal 0.8 cm + 1 ppm, vertical 1.5 cm + 1 ppm     · SLAM algorithms: proprietary LiDAR SLAM and Visual SLAM     · Camera field of view: horizontal 140°, vertical 200°     · Protection class: IP5X     · Storage: internal 256 GB, expandable via TF card     · Communication: WIFI 6 (2.4 GHz/5 GHz), Bluetooth     · Operating temperature: -20 °C to +50 °C     · Storage temperature: -20 °C to +60 °C

The XGRIDS Lixel L2 Pro is a powerful, state-of-the-art 3D hand scanner designed specifically for large-area indoor and outdoor mapping applications. Thanks to innovative Multi-SLAM algorithms, deep AI optimisation, and the perfect combination of LiDAR sensing, visual 48 MP panorama cameras, and integrated IMU, the L2 Pro delivers real-time point clouds in the field with post-processing–quality results. With point densities of up to 1 million points per square meter at 1 mm spacing and an absolute accuracy of only 3 cm, the L2 Pro sets new benchmarks for mobile mapping, topography, infrastructure, and construction surveying.   Features       · Mobile 3D LiDAR-SLAM scanner with real-time point clouds including high-resolution colour capture     · Multi-SLAM and deep AI optimisation: live calculation of powerful point clouds and three-colour models directly on site     · 3D Gaussian Splatting for ultra-dense, realistic, and compact visualisations (with LixelCyberColor Studio)     · Two 48 MP panorama cameras (190° field of view) for photorealistic colour images without additional modules     · Extremely flexible application: hand-held device, vehicle, backpack, or drone mount possible     · 1.5 h battery life, rugged aluminium housing, IP45 protection class for demanding field conditions     · Intuitive operation with the LixelGo app (Android & iOS) or one-button operation, real-time status display on the device   Available in three variants:       · 120 m / 16 channels – efficient for medium to large areas with good scan range     · 120 m / 32 channels – increased point density and detail with good scan range     · 300 m / 32 channels – maximum range with top resolution for large-scale projects   Applications and workflow   Whether construction, urban inventory, large-scale infrastructure, BIM, GIS, or environmental projects: The L2 Pro reliably delivers precise and true-to-colour 3D data quickly and flexibly. Modern AI algorithms ensure stable Multi-SLAM performance even in complex, low-signal environments (indoor spaces, tunnels, vegetation). Real-time point cloud output and the integration of various mounting options maximise field efficiency. The all-in-one software LixelStudio (included) enables comprehensive post-processing, fusion, analysis, and export of professional 3D point cloud data. The LixelGO app for Android and iOS connects the device to a smartphone, enabling control and monitoring of scans directly in the field.   Technical specifications Lixel L2 Pro       · Weight: 1.7 kg (without battery)     · Size: 180 × 130 × 400 mm     · Housing: Industrial aluminium     · Protection class: IP54 (dust- and splash-proof)     · Operating temperature: -20 °C to +50 °C     · Interface: USB 3.1 Gen2     · Storage: 1 TB SSD     · Wireless connection: WiFi (2.4G, 5G2, 5G8), Bluetooth (802.11a/b/g/n/ac)     · Visual Positioning: supported     · Real-time RTK Fusion: supported     · Real-time RGB: supported     · Point cloud formats: .las     · Image formats: .jpg     · Software included: LixelStudio     · Compatibility: Standard RTK module, Survey-Grade RTK module, Extension Pole, Backpack Kit, Vehicle/Drone Mount, Mobile-Phone-Mount   Real-time accuracy:     · Absolute vertical accuracy (RMSE): 3 cm     · Absolute horizontal accuracy (RMSE): 3 cm     · Relative accuracy (RMSE): 2 cm   Processed accuracy:     · Absolute vertical accuracy: 3 cm     · Absolute horizontal accuracy: 3 cm     · Point cloud thickness: 0.5 cm     · Horizontal (with RTK): 0.015°     · Vertical: 0.03°     · Relative accuracy (RMSE): 1 cm     · Reproducibility (RMSE): 2 cm     · LixelUpSample: supported   LiDAR:     · Operating range: 0.5–120 m (16 channels), 0.5–300 m (32 channels)     · Scan frequency: 320,000 points/second (16 channels), 640,000 points/second (32 channels)     · LiDAR sensor: Class 1 / 905 nm     · Sensor FOV: 360° × 270°   Panorama camera:     · Resolution: 2 × 48 MP     · CMOS, sensor size: 1/2"     · Focal length: 2 mm     · Aperture: F/2.0     · Shutter: Rolling Shutter     · Field of view: 190° × 190°     · Maximum panorama image resolution: 56 MP   Visual positioning camera:     · Resolution: 1 MP     · Global shutter     · Field of view: 190° × 119°   Battery:     · Voltage: 14.4 V     · Capacity: 46.8 Wh     · Operating time: approx. 1.5 hours per battery     · Power consumption: < 30 W   Charging:     · Input: 100V-240V, 50-60 Hz, 1.5 A, 80 VA     · Output: 16.8 V, 2.0 A     · Power: 34 W

The XGRIDS Lixel L2 Pro is a powerful, state-of-the-art 3D hand scanner designed specifically for large-area indoor and outdoor mapping applications. Thanks to innovative Multi-SLAM algorithms, deep AI optimisation, and the perfect combination of LiDAR sensing, visual 48 MP panorama cameras, and integrated IMU, the L2 Pro delivers real-time point clouds in the field with post-processing–quality results. With point densities of up to 1 million points per square meter at 1 mm spacing and an absolute accuracy of only 3 cm, the L2 Pro sets new benchmarks for mobile mapping, topography, infrastructure, and construction surveying.   Features       · Mobile 3D LiDAR-SLAM scanner with real-time point clouds including high-resolution colour capture     · Multi-SLAM and deep AI optimisation: live calculation of powerful point clouds and three-colour models directly on site     · 3D Gaussian Splatting for ultra-dense, realistic, and compact visualisations (with LixelCyberColor Studio)     · Two 48 MP panorama cameras (190° field of view) for photorealistic colour images without additional modules     · Extremely flexible application: hand-held device, vehicle, backpack, or drone mount possible     · 1.5 h battery life, rugged aluminium housing, IP45 protection class for demanding field conditions     · Intuitive operation with the LixelGo app (Android & iOS) or one-button operation, real-time status display on the device   Available in three variants:       · 120 m / 16 channels – efficient for medium to large areas with good scan range     · 120 m / 32 channels – increased point density and detail with good scan range     · 300 m / 32 channels – maximum range with top resolution for large-scale projects   Applications and workflow   Whether construction, urban inventory, large-scale infrastructure, BIM, GIS, or environmental projects: The L2 Pro reliably delivers precise and true-to-colour 3D data quickly and flexibly. Modern AI algorithms ensure stable Multi-SLAM performance even in complex, low-signal environments (indoor spaces, tunnels, vegetation). Real-time point cloud output and the integration of various mounting options maximise field efficiency. The all-in-one software LixelStudio (included) enables comprehensive post-processing, fusion, analysis, and export of professional 3D point cloud data. The LixelGO app for Android and iOS connects the device to a smartphone, enabling control and monitoring of scans directly in the field.   Technical specifications Lixel L2 Pro       · Weight: 1.7 kg (without battery)     · Size: 180 × 130 × 400 mm     · Housing: Industrial aluminium     · Protection class: IP54 (dust- and splash-proof)     · Operating temperature: -20 °C to +50 °C     · Interface: USB 3.1 Gen2     · Storage: 1 TB SSD     · Wireless connection: WiFi (2.4G, 5G2, 5G8), Bluetooth (802.11a/b/g/n/ac)     · Visual Positioning: supported     · Real-time RTK Fusion: supported     · Real-time RGB: supported     · Point cloud formats: .las     · Image formats: .jpg     · Software included: LixelStudio     · Compatibility: Standard RTK module, Survey-Grade RTK module, Extension Pole, Backpack Kit, Vehicle/Drone Mount, Mobile-Phone-Mount   Real-time accuracy:     · Absolute vertical accuracy (RMSE): 3 cm     · Absolute horizontal accuracy (RMSE): 3 cm     · Relative accuracy (RMSE): 2 cm   Processed accuracy:     · Absolute vertical accuracy: 3 cm     · Absolute horizontal accuracy: 3 cm     · Point cloud thickness: 0.5 cm     · Horizontal (with RTK): 0.015°     · Vertical: 0.03°     · Relative accuracy (RMSE): 1 cm     · Reproducibility (RMSE): 2 cm     · LixelUpSample: supported   LiDAR:     · Operating range: 0.5–120 m (16 channels), 0.5–300 m (32 channels)     · Scan frequency: 320,000 points/second (16 channels), 640,000 points/second (32 channels)     · LiDAR sensor: Class 1 / 905 nm     · Sensor FOV: 360° × 270°   Panorama camera:     · Resolution: 2 × 48 MP     · CMOS, sensor size: 1/2"     · Focal length: 2 mm     · Aperture: F/2.0     · Shutter: Rolling Shutter     · Field of view: 190° × 190°     · Maximum panorama image resolution: 56 MP   Visual positioning camera:     · Resolution: 1 MP     · Global shutter     · Field of view: 190° × 119°   Battery:     · Voltage: 14.4 V     · Capacity: 46.8 Wh     · Operating time: approx. 1.5 hours per battery     · Power consumption: < 30 W   Charging:     · Input: 100V-240V, 50-60 Hz, 1.5 A, 80 VA     · Output: 16.8 V, 2.0 A     · Power: 34 W

The XGRIDS Lixel L2 Pro is a powerful, state-of-the-art 3D hand scanner designed specifically for large-area indoor and outdoor mapping applications. Thanks to innovative Multi-SLAM algorithms, deep AI optimisation, and the perfect combination of LiDAR sensing, visual 48 MP panorama cameras, and integrated IMU, the L2 Pro delivers real-time point clouds in the field with post-processing–quality results. With point densities of up to 1 million points per square meter at 1 mm spacing and an absolute accuracy of only 3 cm, the L2 Pro sets new benchmarks for mobile mapping, topography, infrastructure, and construction surveying.   Features       · Mobile 3D LiDAR-SLAM scanner with real-time point clouds including high-resolution colour capture     · Multi-SLAM and deep AI optimisation: live calculation of powerful point clouds and three-colour models directly on site     · 3D Gaussian Splatting for ultra-dense, realistic, and compact visualisations (with LixelCyberColor Studio)     · Two 48 MP panorama cameras (190° field of view) for photorealistic colour images without additional modules     · Extremely flexible application: hand-held device, vehicle, backpack, or drone mount possible     · 1.5 h battery life, rugged aluminium housing, IP45 protection class for demanding field conditions     · Intuitive operation with the LixelGo app (Android & iOS) or one-button operation, real-time status display on the device   Available in three variants:       · 120 m / 16 channels – efficient for medium to large areas with good scan range     · 120 m / 32 channels – increased point density and detail with good scan range     · 300 m / 32 channels – maximum range with top resolution for large-scale projects   Applications and workflow   Whether construction, urban inventory, large-scale infrastructure, BIM, GIS, or environmental projects: The L2 Pro reliably delivers precise and true-to-colour 3D data quickly and flexibly. Modern AI algorithms ensure stable Multi-SLAM performance even in complex, low-signal environments (indoor spaces, tunnels, vegetation). Real-time point cloud output and the integration of various mounting options maximise field efficiency. The all-in-one software LixelStudio (included) enables comprehensive post-processing, fusion, analysis, and export of professional 3D point cloud data. The LixelGO app for Android and iOS connects the device to a smartphone, enabling control and monitoring of scans directly in the field.   Technical specifications Lixel L2 Pro       · Weight: 1.7 kg (without battery)     · Size: 180 × 130 × 400 mm     · Housing: Industrial aluminium     · Protection class: IP54 (dust- and splash-proof)     · Operating temperature: -20 °C to +50 °C     · Interface: USB 3.1 Gen2     · Storage: 1 TB SSD     · Wireless connection: WiFi (2.4G, 5G2, 5G8), Bluetooth (802.11a/b/g/n/ac)     · Visual Positioning: supported     · Real-time RTK Fusion: supported     · Real-time RGB: supported     · Point cloud formats: .las     · Image formats: .jpg     · Software included: LixelStudio     · Compatibility: Standard RTK module, Survey-Grade RTK module, Extension Pole, Backpack Kit, Vehicle/Drone Mount, Mobile-Phone-Mount   Real-time accuracy:     · Absolute vertical accuracy (RMSE): 3 cm     · Absolute horizontal accuracy (RMSE): 3 cm     · Relative accuracy (RMSE): 2 cm   Processed accuracy:     · Absolute vertical accuracy: 3 cm     · Absolute horizontal accuracy: 3 cm     · Point cloud thickness: 0.5 cm     · Horizontal (with RTK): 0.015°     · Vertical: 0.03°     · Relative accuracy (RMSE): 1 cm     · Reproducibility (RMSE): 2 cm     · LixelUpSample: supported   LiDAR:     · Operating range: 0.5–120 m (16 channels), 0.5–300 m (32 channels)     · Scan frequency: 320,000 points/second (16 channels), 640,000 points/second (32 channels)     · LiDAR sensor: Class 1 / 905 nm     · Sensor FOV: 360° × 270°   Panorama camera:     · Resolution: 2 × 48 MP     · CMOS, sensor size: 1/2"     · Focal length: 2 mm     · Aperture: F/2.0     · Shutter: Rolling Shutter     · Field of view: 190° × 190°     · Maximum panorama image resolution: 56 MP   Visual positioning camera:     · Resolution: 1 MP     · Global shutter     · Field of view: 190° × 119°   Battery:     · Voltage: 14.4 V     · Capacity: 46.8 Wh     · Operating time: approx. 1.5 hours per battery     · Power consumption: < 30 W   Charging:     · Input: 100V-240V, 50-60 Hz, 1.5 A, 80 VA     · Output: 16.8 V, 2.0 A     · Power: 34 W

SHARE SLAM S20 ...

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