AsteRx RBi3 Pro

Rugged GNSS/INS positioning receiver

  • Rugged and durable IP69K GNSS receiver
  • High-accuracy RTK positioning with all-in-view, GNSS multi-frequency satellite tracking
  • Inertial sensor provides heading, pitch, roll angles
  • Sub-degree GNSS heading option
  • GNSS+ algorithms  ensure reliable performance in difficult environments including  LOCK+ technology allowing robust satellite tracking under heavy vibrations and shocks
  • GNSS heading option with sub-degree accuracy
  • Fast and easy integration with the intuitive Web User Interface, automatic lever arm optimization and support Knowledge Base
Product datasheet Ask a quote

AsteRx RBi3 Pro GNSS/INS multi-frequency receiver delivers reliable centimeter-level positioning together with orientation. It is designed to withstand the harshest of working environments in terms of temperature, corrosion as well as shock and vibration.

Reliable positioning in harsh environments

Ultra-rugged housing combined with multi-frequency tracking and GNSS+ algorithms make AntaRx RBi3 Pro the ideal GNSS receiver for applications that require accurate position in chemically aggressive environments, harsh temperatures, and high mechanical stress.  

Most reliable operation with INS  

The integrated INS (Inertial Navigation System) ensures the highest positioning performance and orientation data. Continuity of positioning is maintained even during short GNSS outages when the line-of-sight to satellites is lost due to obstructions. With the dual-antenna option, AsteRx RBi3 Pro also provides precise, position-independent heading, which is available immediately at the start of operation.

Heading option

With optional dual-antenna input, AsteRx RBi3 Pro provides precise, reliable and position independent heading combined with centimeter-level RTK. GNSS heading provides unmatched performance in both static and dynamic conditions removing the reliance on vehicle dynamics or magnetic sensors.

Ease of integration

The AsteRx RBi3 Pro integrates seamlessly into any system thanks to fully documented machine interfaces, commands and data messages. Septentrio’s open interfaces and software tools (WebUI, RxTools) make it easy to the integrate, configure and control the AsteRx RBi3 Pro receiver.

The GNSS+ technologies - top performance in challenging environments 

Mechanical vibrations or shocks caused by rough terrain can wreak havoc with satellite tracking. LOCK+automatically adjusts the parameters of this receiver so you never lose position. 

Activity in the ionosphere is a problem for GNSS signals, from loss of RTK fix to total loss of signal lock. Having honed our skills, supporting applications in the most iono-active areas on Earth,  the result is IONO+: the most advanced protection against ionospheric disturbances to GNSS signals on any receiver. 

Metal and large nearby structures can reflect GNSS signals and produce multipath. The APME+system effectively disentangles direct and reflected signals enhancing both position and measurement quality. APME+ is bias free and, in line with Septentrio’s commitment to maximum configurability, can be disabled. 

Advanced Receiver Autonomous Integrity Monitoring(RAIM+) comprises fault detection mechanisms of the receiver at all the levels including the generation of measurements, quality control and navigation algorithms. Detected faulty measurements, which are typically caused by high multipath or active ionosphere, are removed from the solution. 

AIM+ anti-jamming and RF spectrum monitoring system 

AIM+ offers built-in protection against intentional and unintentional jamming using a sophisticated system of sampling and mitigation mechanisms. Your high-precision GNSS receiver can automatically suppress the widest variety of interferers from simple continuous narrow-band signals to the more complex wide band and pulsed transmitters as well as lnmarsat and Iridium satellite transmissions.   

Intuitive web user interface

Septentrio ease to use web user interface for AntaRx RB3 rugged GNSS receiver
Illustrative image only

GNSS technology

GPS: L1 C/A, L1C, L2C, L2 P(Y), L5
GLONASS: L1 C/A, L2C/A, L2P, L3
More info

„
Beidou: B1I, B1C, B2a, B2I, B2b, B3I
Galileo: E1, E5a, E5b
QZSS: L1 C/A, L1C/B, L2C, L5
SBAS: EGNOS, WAAS, GAGAN, MSAS, SDCM

Septentrio patented GNSS+ technologies

AIM+ anti-jamming, anti-spoofing Advanced Interference Monitoring and Mitigation
More info

AIM+

Unique anti-interference system monitors, flags and mitigates narrow and wideband interference, jamming and spoofing.

More info

Interfaces

Hi-speed serial ports (RS232)
 3
Ethernet port (TCP/IP, UDP, LAN 10/100 Mbps)
 1
Power over ethernet
 1
High-speed/full-speed USB device port
 1
Event markers
 2
FTP server
 1

Integrated position accuracy

Standalone - horizontal
More info

Open-sky conditions. RMS levels.

 1.2 m
Standalone - vertical
 1.9 m
SBAS - horizontal
0.6 m
SBAS - vertical
0.8 m

Velocity

Velocity accuracy
More info

Open sky conditions. RMS levels.

 3 cm/s

Certification

Certificates
 IP 68, RohS, WEEE, ISO 9001-2015
Show more specifications

Applications

Text 2 columns

Lorem ipsum dolor sit amet, consectetuer adipiscing elit. Aenean commodo ligula eget dolor. Aenean massa. Cum sociis natoque penatibus et magnis dis parturient montes, nascetur ridiculus mus.

Donec quam felis, ultricies nec, pellentesque eu, pretium quis, sem. Nulla consequat massa quis enim. Donec pede justo, fringilla vel, aliquet nec, vulputate eget, arcu. In enim justo, rhoncus ut, imperdiet a, venenatis vitae, justo.

Nullam dictum felis eu pede mollis pretium. Integer tincidunt. Cras dapibus. Vivamus elementum semper nisi. Aenean vulputate eleifend tellus. Aenean leo ligula, porttitor eu, consequat vitae, eleifend ac, enim. Aliquam lorem ante, dapibus in, viverra quis, feugiat a, tellus

Phasellus viverra nulla ut metus varius laoreet. Quisque rutrum. Aenean imperdiet. Etiam ultricies nisi vel augue. Curabitur ullamcorper ultricies nisi. Nam eget dui. Etiam rhoncus.

Maecenas tempus, tellus eget condimentum rhoncus, sem quam semper libero, sit amet adipiscing sem neque sed ipsum. Nam quam nunc, blandit vel, luctus pulvinar, hendrerit id, lorem. Maecenas nec odio et ante tincidunt tempus. Donec vitae sapien ut libero venenatis faucibus. Nullam quis ante. Etiam sit amet orci eget eros faucibus tincidunt. Duis leo. Sed fringilla mauris sit amet nibh. Donec sodales sagittis magna. Sed consequat, leo eget bibendum sodales, augue velit cursus nunc,