hit
counter

Trimble R8 Model 2 & 5800 GPS Base & Rover Set 450 - 470 MHz

Quick Overview

 Trimble R8 Model 2 GPS GLONASS Base Or Rover Receiver w/ Options...
- CMR Inputs
- CMR Outputs
- RTCM Inputs
- RTCM Outputs
- Data Collector
- Binary Outputs
- Data Logging
- Bluetooth
- L2CS
- UHF Transmit
- Cellular
- L5
- Enable GLONASS
- Software Version 4.44
- Boot Version 4.11
- Radio Version 4.40u
- 450 - 470 MHz Radio Module P/N: 57880-66
- Serviced By A Trimble Authorized Service Center
SKU: GPS132
Item ID: X2273 X2201
Condition: Refurbished
Warranty: 90 Day Exchange

Included

* Trimble R8 Model 2 GPS GLONASS Base Receiver w/ Options... [ID- X2273]
          - CMR Inputs
          - CMR Outputs
          - RTCM Inputs
          - RTCM Outputs
          - Data Collector
          - Binary Outputs
          - Data Logging
          - Bluetooth
          - L2CS
          - UHF Transmit
          - Cellular
          - L5
          - Enable GLONASS
          - Software Version 4.44
          - Boot Version 4.11
          - Radio Version 4.40u
          - 450 - 470 MHz Radio Module P/N: 57880-66
          - Serviced By A Trimble Authorized Service Center
* Trimble 5800 Rover Receiver w/ Options... [ID- X2201]
         - CMR Inputs
         - CMR Outputs
         - RTCM Inputs
         - RTCM Outputs
         - Data Collector
         - Binary Outputs
         - 10 Hz Measurements
         - Data logging
         - Twelve Channels
         - Software Version 2.32
         - Boot Version 2.20
         - Radio Version 1.98b
         - 450 - 470 MHz Radio Module P/N: 49522-46
         - Serviced By A Trimble Authorized Service Center
* Trimble 32960 (DCA0302) Cable
* QTY. 2 Antennas
* Trimble 61116-00 Battery Charger
* QTY. 2 Battery Packs
* AC Adapter/Charger
* Power Cord
* User Manual On CD-ROM
* Hard Carrying Case

Details

Trimble R8 Model 2 Receiver

The Trimble R8 GNSS delivers the latest advancements in R-Track™ technology, designed to deliver reliable, precise positioning performance . In challenging areas for GNSS surveying, such as tree cover or limited sky view, Trimble R-Track provides unmatched tracking performance of GNSS satellite signals .

Trimble R-Track with Signal Prediction™ compensates for intermittent or marginal RTK correction signals, enabling extended precision operation after an RTK signal is interrupted .

The new CMRx communications protocol provides unprecedented correction compression for optimized bandwidth and full utilization all of the satellites in view, giving you the most reliable positioning performance .

Featuring the Trimble Maxwell™ 6 chip, the Trimble R8 GNSS advances the industry with more memory and more GNSS channels . Trimble delivers business confidence with a sound GNSS investment for today and into the future .

Broad GNSS support
The Trimble R8 GNSS supports a wide range of satellite signals, including GPS L2C and L5 and GLONASS L1/L2 signals . In addition, Trimble is committed to the next generation of modernized GNSS configurations by providing Galileo-compatible products available for customers well in advance of Galileo system availability 1,2 . In support of this plan, the new Trimble R8 GNSS is capable of tracking the experimental GIOVE-A and GIOVE-B test satellites for signal evaluation and test purposes .

Flexible System Design
The Trimble R8 GNSS receiver combines the most comprehensive feature set into an integrated and flexible system for demanding surveying applications . The Trimble R8 GNSS includes a built-in transmit/receive UHF radio, enabling ultimate flexibility for rover or base operation . As a base station, the internal NTRIP caster provides you with customized access 3 to base station corrections via the internet .

Trimble’s exclusive, Web UI™ eliminates travel requirements for routine monitoring of base station receivers . Now you can assess the health and status of base receivers and perform remote configurations from the office . Likewise, you can download post-processing data through Web UI and save additional trips out to the field .

Enabling The Connected Site
Pair the speed and accuracy of the Trimble R8 GNSS receiver with flexibility and collaboration tools of Trimble Access™ software . Trimble Access brings field and office teams closer by enabling data sharing and collaboration in a secure, web-based environment . With optional streamlined workflows, Trimble Access further empowers surveyors and survey teams for success . Now it is easier than ever to realize the potential of the Trimble Connected Site . Connecting the right tools, techniques, services and relationships enables surveying businesses to achieve more every day


Performance Specifications Measurements:
• Trimble R-Track technology
• Advanced Trimble Maxwell 6 Custom Survey GNSS chip with 220 channels
• High precision multiple correlator for GNSS pseudorange measurements
• Unfiltered, unsmoothed pseudorange measurements data for low noise, low multipath error, low time domain correlation and high dynamic response
• Very low noise GNSS carrier phase measurements with <1 mm precision in a 1 Hz bandwidth
• Signal-to-Noise ratios reported in dB-Hz
• Proven Trimble low elevation tracking technology
• Satellite signals tracked simultaneously:
– GPS: L1C/A, L2C, L2E (Trimble method for tracking L2P), L5
– GLONASS: L1C/A, L1P, L2C/A (GLONASS M only), L2P
– SBAS: L1C/A, L5
– Galileo GIOVE-A and GIOVE-B










Trimble 5800 GPS Receiver
The Trimble® 5800 GPS receiver provides reliability and simplicity for basic surveying tasks. You can trust that the proven design of the Trimble 5800 will perform under the toughest conditions.

Integrated System
Because the Trimble 5800 GPS receiver's components are completely integrated, the system is lightweight and ergonomic—and completely cable-free. 2 MB of internal memory makes collecting data for postprocessing extremely easy and efficient, whether for static or kinematic (stop-and-go) surveying.

Advanced Technology
The Trimble 5800 GPS system offers advanced Trimble GPS technology. It is a 24-channel dual-frequency GPS receiver, containing Trimble’s proven Maxwell™ technology for robust tracking in difficult GPS environments.

Two additional channels for WAAS and EGNOS tracking let you perform real-time differential surveys to GIS grade without a base station.

The dual-frequency Trimble antenna enhances the tracking capabilities of the Trimble 5800—the patented four-point antenna feed provides submillimeter phase center stability for precise results. The position of the UHF radio antenna mounting further increases accuracy by being out of the GPS line-of-sight, reducing multipath and avoiding interference with the GPS antenna.

For rover communications use the built-in 450 or 900 MHz radio, or use an external radio, cell phone or wireless packet data modem.

For extended coverage and comprehensive error checking when roving, the Trimble 5800 works with signals from multiple base stations transmitting on the same radio channel. For even larger area coverage, at highest accuracies, the Trimble 5800 works with Trimble VRS™ networks.

Integrated Bluetooth® wireless technology enables cable-free communication between the receiver and your Trimble controller.

Built For The Field
As a rover, the Trimble 5800 is not only lightweight and cable-free; it also consumes minimal power. Two miniature batteries will power the receiver for up to 11 hours – at least enough for a full working day.

Environmentally rated to IPX7, and submersible to a depth of 1 m, the Trimble 5800 is rugged enough for any job. It can withstand a drop of up to 2 m on to a hard surface.

Wide Range of Applications:
The 5800 GPS system is ideal for a wide range of positioning applications, including:

  • Survey
  • Construction
  • Asset management


Features:

  • Purpose-built integrated GPS receiver for improved productivity
  • Scalable from L1, postprocessing to full RTK configurations
  • Lightweight design for reduced fatigue on all-day operations
  • Cable-free rover for more flexibility and ease-of-use in the field
  • Accurate, reliable and rugged


Specifications:

Code differential GPS positioning
Horizontal
±0.25 m +1 ppm RMS
Vertical
±0.50 m +1 ppm RMS
WAAS differential positioning accuracy
Typically <5m 3DRMS
Static and FastStatic GPS surveying
Horizontal ±5 mm +0.5 ppm RMS
Vertical
±5 mm +1 ppm RMS
Kinematic surveying
Horizontal ±10 mm +1 ppm RMS
Vertical ±20 mm +1 ppm RMS
Initialization time
Single/Multi-base minimum 10 sec +0.5 times baseline length in km, up to 30 km
Initialization reliability
Typically >99.9%
Physical
Dimensions (WxH)
19 cm (7.5 in) × 10 cm (3.9 in), including connectors
Weight
1.31 kg (2.89 lb) with internal battery, internal radio, standard UHF antenna. 3.67 kg (8.09 lb) entire RTK rover including batteries, range pole, controller and bracket
Temperature
Operating
Storage

–40 °C to +65 °C (–40 °F to +149 °F)
–40 °C to +75 °C (–40 °F to +167 °F)
Humidity 100%, condensing
Water/dustproof IP67 Dustproof, protected from temporary immersion to depth of 1 m (3.28 ft)
Shock and vibration Tested and meets the following environmental standards:
Shock Non-operating: Designed to survive a 2 m (6.6 ft) pole drop onto concrete. Operating: to 40 G, 10 msec, sawtooth
Vibration
MIL-STD-810F, FIG.514.5C-1
Electrical
  • Power 11 to 28 V DC external power input with over-voltage protection on Port 1 (7-pin Lemo)
  • Rechargeable, removable 7.4 V, 2.4 Ah Lithium-Ion battery in internal battery compartment. Power consumption is <2.5 W, in RTK mode with internal radio
  • Operating times on internal battery: 5.5 hours with 450 MHz receive only (varies with temperature)
  • Certification Class B Part 15, 22, 24 FCC certification, Canadian FCC, CE Mark approval, and C-tick approval
Communications and Data Storage
  • 3-wire serial (7-pin Lemo) on Port 1. Full RS-232 serial on Port 2 (Dsub 9 pin)
  • Fully Integrated, fully sealed internal 450 MHz receiver
  • Fully integrated, fully sealed 2.4 GHz communications port (Bluetooth)
  • External cell phone support for GSM/GPRS/CDPD modems for RTK and VRS operations
  • Data storage on 2 MB internal memory: 55 hours of raw observables based on recording data from 6 satellites at 15 second intervals
  • 1 Hz, 2 Hz, 5 Hz, and 10 Hz positioning
  • CMR+, RTCM 2.1, RTCM 2.3, RTCM 3.0, RTCM 3.1 Input and Output
  • 16 NMEA outputs, GSOF and RT17 outputs