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Trimble R780 Spec Sheet

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© 2024, Trimble Inc. All rights reserved. Trimble, the Globe & Triangle logo, CenterPoint, ProPoint, Trimble RTX and xFill are trademarks of Trimble Inc., registered in the United States and in other countries. EVEREST, Ionoguard, Maxwell, Trimble Inertial Platform and TIP are trademarks of Trimble Inc. The Bluetooth word mark and logos are owned by the Bluetooth SIG, Inc. and any use of such marks by Trimble Inc. is under license. Galileo is developed under a License of the European Union and the European Space Agency. All other trademarks are the property of their respective owners. 022519-219 (05/24) Contact your local Trimble Authorized Distribution Partner for more information TRIMBLE BUILDING CONSTRUCTION FIELD SOLUTIONS 10368 Westmoor Drive Westminster CO 80021 USA fieldtech@construction.trimble.com CERTIFICATIONS FCC Part 15 Subpart B (Class B Device), Part 15.247, Part 90 Canadian ICES-003 (Class B), RSS-GEN, RSS-247 CE mark, UKCA mark Radio Equipment Directive (RED 2014/53/EU) RoHS compliance WEEE compliance IEC62368-1 3rd Edition EN62311, EN 55032, EN55035 ACMA mark, AS/CISPR 32 Japan MIC TRIMBLE PROTECTED PROTECTION PLANS Add a Trimble Protected protection plan for worry-free ownership over and above the standard Trimble product warranty. Added enhancements include coverage for wear & tear, environmental damage, and more. Accidental damage is covered with Premium plans, available only at point-of-sale in selected regions. For details, visit trimbleprotected.com or contact a local Trimble distributor. 1 Challenging GNSS environments are locations where the receiver has sufficient satellite availability to achieve minimum accuracy requirements, but where the signal may be partly obstructed by and/or reflected off of trees, buildings, and other objects. Actual results may vary based on user's geographic location and atmospheric activity, scintillation levels, GNSS constellation health and availability, and level of multipath and signal occlusion. 2 The current capability in the receivers is based on publicly available information. As such, Trimble cannot guarantee that these receivers will be fully compatible with a future generation of Galileo satellites or signals. 3 Precision and reliability may be subject to anomalies due to multipath, obstructions, satellite geometry, and atmospheric conditions. The specifications stated recommend the use of stable mounts in an open sky view, EMI and multipath clean environment, optimal GNSS constellation configurations, along with the use of survey practices that are generally accepted for performing the highest-order surveys for the applicable application including occupation times appropriate for baseline length. Baselines longer than 30 km require precise ephemeris and occupations up to 24 hours may be required to achieve the high precision static specification. 4 Network RTK PPM values are referenced to the closest physical base station. 5 May be affected by atmospheric conditions, signal multipath, obstructions and satellite geometry. Initialization reliability is continuously monitored to ensure highest quality. 6 TIP references the overall positioning error estimate at the tip of the surveying pole throughout the tilt compensation range. RTK refers to the estimated horizontal precision of the underlying GNSS position, which is dependent on factors that affect GNSS solution quality. The 8 mm constant error component accounts for residual misalignment between the vertical axes of the receiver and the built-in Inertial Measurement Unit (IMU) after factory calibration, assuming the receiver is mounted on a standard 2 m carbon fiber range pole which is properly calibrated and free from physical defects. The tilt-dependent error component is a function of the quality of the computed tilt azimuth, which is assumed here to be aligned using optimal GNSS conditions. For best IMU tilt compensated results, perform a pole bias adjustment. 7 RMS performance based on repeatable in field measurements. Achievable accuracy and initialization time may vary based on type and capability of receiver and antenna, user's geographic location and atmospheric activity, scintillation levels, GNSS constellation health and availability and level of multipath including obstructions such as large trees and buildings. 8 Accuracies are dependent on GNSS satellite availability. xFill positioning ends after 5 minutes of radio downtime. xFill is not available in all regions, check with your local sales representative for more information. 9 RTK refers to the last reported precision before the correction source was lost and xFill started. 10 Depends on SBAS system performance. 11 Receiver will operate normally to -40 °C, internal batteries are rated from -20 °C to +60 °C (ambient +50 °C). 12 Tracking GPS, GLONASS and SBAS satellites. 13 Varies with temperature and wireless data rate. When using a receiver and internal radio in the transmit mode, it is recommended that an external 6 Ah or higher battery is used. 14 900 MHz range only available in select regions. Specifications subject to change without notice. Trimble R780 GNSS System SPEC SHEET fieldtech.trimble.com

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