Specifications

Specifications are subject to change without notice.

GNSS technology
Constellation agnostic, flexible signal tracking, improved positioning in challenging environments¹ and inertial measurement integration with Trimble ProPoint GNSS technology. Increased measurement and stakeout productivity and traceability with Trimble TIP technology IMU-based tilt compensation. Dual Trimble Maxwell™ 7 technology custom GNSS chip with 672 channels. Trimble EVEREST™ multipath signal rejection. Trimble IonoGuard™ technology for mitigation of ionospheric GNSS signal disruptions. Trimble CenterPoint RTX correction service is activated and ready to use for the initial 12 months. Spectrum Analyzer to troubleshoot GNSS jamming. Digital Signal Processor (DSP) techniques to detect and recover from spoofed GNSS signals. Iridium filtering above 1616 MHz allows antenna to be used up to 20 m away from an iridium transmitter. Japanese LTE filtering below 1510 MHz allows antenna usage > 100 m (328 ft) from a Japanese LTE cell tower. Trimble xFill® technology for short gaps in correction messages. 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.

GNSS technology

Constellation agnostic, flexible signal tracking, improved positioning in challenging environments¹ and inertial measurement integration with Trimble ProPoint GNSS technology.
Increased measurement and stakeout productivity and traceability with Trimble TIP technology IMU-based tilt compensation.
Dual Trimble Maxwell™ 7 technology custom GNSS chip with 672 channels.
Trimble EVEREST™ multipath signal rejection.
Trimble IonoGuard™ technology for mitigation of ionospheric GNSS signal disruptions.
Trimble CenterPoint RTX correction service is activated and ready to use for the initial 12 months.
Spectrum Analyzer to troubleshoot GNSS jamming.
Digital Signal Processor (DSP) techniques to detect and recover from spoofed GNSS signals.
Iridium filtering above 1616 MHz allows antenna to be used up to 20 m away from an iridium transmitter.
Japanese LTE filtering below 1510 MHz allows antenna usage > 100 m (328 ft) from a Japanese LTE cell tower.
Trimble xFill® technology for short gaps in correction messages.

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.

Satellite tracking
BeiDou: B1, B1C, B2, B2A, B2B, B3 Galileo²: E1, E5a, E5b, E5AltBOC, E6 GLONASS: L1-C/A, L2-C/A, L1P, L2P, L3 GPS: L1 C/A, L1C, L2C, L2E (Trimble method for tracking unencrypted L2P), L5 NavIC: L5-C/A SBAS L1 C/A (EGNOS / MSAS / GAGAN, SDCM), L1 C/A, L5 (WAAS) QZSS: L1 C/A, L1C, L1S, L2C, L5, L6D L-band: Trimble RTX corrections 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.

Satellite tracking

BeiDou: B1, B1C, B2, B2A, B2B, B3
Galileo²: E1, E5a, E5b, E5AltBOC, E6
GLONASS: L1-C/A, L2-C/A, L1P, L2P, L3
GPS: L1 C/A, L1C, L2C, L2E (Trimble method for tracking unencrypted L2P), L5
NavIC: L5-C/A
SBAS L1 C/A (EGNOS / MSAS / GAGAN, SDCM), L1 C/A, L5 (WAAS)
QZSS: L1 C/A, L1C, L1S, L2C, L5, L6D
L-band: Trimble RTX corrections

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.

Configuration options
See Configuration levels.

Hardware variants
See Receiver variants.

Positioning performance3
STATIC GNSS SURVEYING
High-Precision Static
Horizontal	3 mm + 0.1 ppm RMS
Vertical	3.5 mm + 0.4 ppm RMS
Static and Fast Static
Horizontal	3 mm + 0.5 ppm RMS
Vertical	5 mm + 0.5 ppm RMS
REAL-TIME KINEMATIC SURVEYING
Single Baseline < 30 km
Horizontal	8 mm + 1 ppm RMS
Vertical	15 mm + 1 ppm RMS
Network RTK⁴
Horizontal	8 mm + 0.5 ppm RMS
Vertical	15 mm + 0.5 ppm RMS
RTK start-up time for specified precisions⁵	2 to 8 seconds
TRIMBLE INERTIAL PLATFORM (TIP) TECHNOLOGY
TIP Compensated Surveying⁶
Horizontal	RTK + 5 mm + 0.4 mm/° tilt (up to 30°) RMS
Horizontal	RTX + 5 mm + 0.4 mm/° tilt (up to 30°) RMS
IMU Integrity Monitor
Bias monitoring	Temperature, age, and shock
Operation
IMU alignment	Calibration-free and immune to magnetic interference
TRIMBLE RTX CORRECTION SERVICES
CenterPoint RTX⁷
Horizontal	2 cm RMS
Vertical	3 cm RMS
Convergence time for specified precisions in Trimble RTX Fast regions	< 1 min
Convergence time for specified precisions in non-Trimble RTX Fast regions	< 3 min
QuickStart convergence time for specified precisions	< 1 min
TRIMBLE XFILL⁸
Horizontal	RTK⁹+ 10 mm/minute RMS
Vertical	RTK⁹ + 20 mm/minute RMS
CODE DIFFERENTIAL GNSS POSITIONING
Horizontal	0.25 m + 1 ppm RMS
Vertical	0.50 m + 1 ppm RMS
SBAS¹⁰	Typically < 5 m 3DRMS
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 5 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 that 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. 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 performance.

Physical
Display	Power button and indicator LEDs. See Parts of the receiver.
Dimensions (W × H)	11.9 cm (W) × 13.60 cm (H) 4.6 in (W) × 5.4 in (H)
Weight	1.13 kg (2.49 lb) with internal battery, integrated radio, and UHF antenna 3.96 kg (8.73 lb) items above plus range pole, Trimble TSC7 data collector, and bracket

Temperature
Operating ¹¹	-40 °C to +65 °C (-40 °F to +149 °F)
Storage	-40 °C to +80 °C (-40 °F to +176 °F)
Humidity	100%, condensing
Water Ingress Protection (IP)	IP67 for submersion to depth of 1 m (3.3 ft), dustproof
Battery high-temperature shutoff	60 °C (140 °F)
¹¹Receiver will operate normally to -40 °C (-40 °F), internal batteries are rated from -20 °C to +60 °C (-4 to + 140 °F), (ambient +50 °C (122 °F)).

Shock and vibration
Pole drop	Designed to survive a 2 m (6.6 ft) pole drop onto a hard surface
Shock – non-operating	To 75 g, 6 ms
Shock – operating	To 40 g, 10 ms, saw-tooth
Vibration	MIL-STD-810H, Fig 514.8C-6

Electrical
External	11 to 24 V DC external power input with over-voltage protection on port 1 and port 2 (7-pin Lemo)
Battery	Rechargeable, removable 7.4 V, 3.7 Ah Lithium-ion smart battery with LED status indicators
Power consumption
Rover mode	4.2 to 4.6 W in rover mode with internal 450 MHz receive radio 4.0 W in rover mode with internal 900 MHz receive radio 3.7 W in rover mode with internal LTE modem
Base station mode	5.4 to 6.6 W in base station mode with internal 450 MHz transmit radio 4.3 W in base station mode with internal 900 MHz transmit radio 3.7 W in base station mode with internal LTE modem

Operation time on internal battery¹²
Rover
450 or 900 MHz receive	5.5 to 6.3 hours
Cellular receive (internal or controller using Bluetooth wireless technology)	7.0 hours
Base station
450 MHz transmit (0.5 W)	4.7 hours
450 MHz transmit (1.0 W) Available only where legally permitted.	3.7 to 4.1 hours
900 MHz transmit (1.0 W) Available only where legally permitted.	6.0 hours
Cellular transmit	7.0 hours
¹² 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.

Communications
PTCRB, Bluetooth SIG, AT&T (data-only SIM)
Radio modem
	Fully-integrated, sealed 450 MHz wide band transceiver with frequency range of 410 to 473 MHz (RED 2014/53/EU compliant) or dual-band 450/900 MHz transceiver (410 to 473 / 902 to 928¹³ MHz frequency range) Support for Trimble, Pacific Crest, and SATEL radio protocols
Transmit power	0.5 W, 1.0 W (1.0 W available only where legally permitted)
Range¹⁴	3 to 5 km typical, 10 km optimal
Cellular¹⁵	Fully integrated, fully-sealed LTE compliant module with 2G/3G fallback FDD-LTE: bands 1, 2, 3, 4, 5, 7, 8, 12, 13, 18, 19, 20, 26, 28, 66 TD-LTE: bands 38, 40 UMTS (WCDMA/FDD): bands 1, 2, 3, 4, 5, 6, 8, 19 Quad-band GSM: 850, 900, 1800, 1900 MHz
Bluetooth wireless technology	Fully-integrated, fully-sealed 2.4 GHz Bluetooth module Bluetooth EDR/BR v5.1
Wi-Fi	Fully-integrated, fully-sealed 2.4 GHz Wi-Fi module Simultaneous access point (AP) and client modes
Positioning rates	1 Hz, 2 Hz, 5 Hz, 10 Hz, and 20 Hz
I/O ports	Serial, USB, TCP/IP, IBSS/NTRIP, Bluetooth
Data storage	9 GB internal memory
Correction formats	CMRx, CMR+, CMR, RTCM 2.x, RTCM 3.x (RTCM output not supported for 900 MHz UHF)
Data outputs	NMEA-0183, GSOF, RT17 and RT27
Serial	7-pin 0S Lemo, 3-wire RS-232. See Pinout information.
USB	USB v2.0, supports data download and high-speed communications
Web interface	Offers simple configuration, operation, status, and data transfer using desktop or mobile web browsers. Accessible via Wi-Fi, serial, USB, and Bluetooth.
¹³ 900 MHz range only available in select regions. ¹⁴ Varies with terrain and operating conditions. ¹⁵ Due to local regulations, the integrated cellular modem cannot be enabled in China, Taiwan, or Brazil. A Trimble controller integrated cellular modem or external cellular modem can be used to obtain GNSS corrections via an IP (Internet Protocol) connection.

Supported controllers and field software
Controllers	Trimble TSC7, TSC5, Trimble TDC6, Trimble T100, Trimble T7, Android™ and iOS devices running supported apps
Field software	Trimble Access™ 2024.00 and later Supports Trimble Internet Base Station Service (IBSS) for streaming RTK corrections using Trimble Access 2023.10 and later

Supported controllers and field software

Controllers

Trimble TSC7, TSC5, Trimble TDC6, Trimble T100, Trimble T7, Android™ and iOS devices running supported apps

Field software

Trimble Access™ 2024.00 and later

Supports Trimble Internet Base Station Service (IBSS) for streaming RTK corrections using Trimble Access 2023.10 and later

Regulatory approvals
See Compliance Notices. See Safety information.

Regulatory approvals

See Compliance Notices.

See Safety information.

Protection plans
Add a protection plan for worry-free ownership over and above the standard Trimble product warranty. Added enhancements include coverage for wear and 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.

Protection plans

Add a protection plan for worry-free ownership over and above the standard Trimble product warranty.

Added enhancements include coverage for wear and 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.