EMB – Ethernet GNSS Receiver
EMB - Ethernet GNSS Receiver
For precise information on position, speed and location
Can be easily integrated into your application
EMB - Ethernet GNSS Receiver
Introducing the ANavS EMB Board – High-Precision GNSS for Cutting-Edge Applications
Precision positioning, maximum flexibility, and future-proof GNSS technology – the new EMB Board (Ethernet Mosaic Board) from ANavS is setting new standards in high-accuracy navigation. Powered by the Septentrio MOSAIC GNSS receiver, the EMB Board delivers outstanding positioning accuracy for industries such as automotive, rail, robotics, and more.
Why choose the EMB Board?
Multi-Constellation, Multi-Frequency GNSS: the EMB Board supports all major GNSS constellations (GPS, Galileo, BeiDou, GLONASS, QZSS, NavIC) and offers centimeter-level RTK positioning as well as Precise Point Positioning (PPP) for applications without RTK correction data.
These options allow ANavS to offer a tailor-made solution for every application – from high-precision navigation to robust synchronization in GNSS-challenging environments.
Top Performance for Dynamic Applications
Seamless Integration & Various Interfaces
Various Applications - The EMB Board is designed for:
The EMB Board is available in three configurations:
- Up to 100 Hz update rate for real-time applications
- <10 ms latency – ideal for autonomous systems and robotics
- Precise time & frequency synchronization with PPS and 10 MHz clock input
- Ethernet & USB-C for flexible communication
- PoE option for easy power supply
- Compact design, perfect for embedded systems
- Autonomous vehicles & robotics
- Smart rail & railway technology
- Precise time & frequency synchronization
- UAVs & mobile mapping solutions
- EMB-X5 – Standard version with a single antenna for high-precision positioning
- EMB-H – Dual-antenna version for precise heading determination
- EMB-T – Time and frequency synchronization with a 10 MHz clock input
M.2 GNSS Cards
The ANavS M.2 MOSAIC GNSS Receiver Cards are part of the ANavS Smart Module family, designed for integraton into industrial PCs and development boards. The M.2 MOSAIC Receivers provide a high-rate, precise GNSS soluton for both positon and attitude.
The M.2 Key E format is a common standard for industrial PCs, embedded PCs or development boards (e.g. Nvidia Jetson boards).
With adapter boards the cards can also be used with USB or Mini PCIe.
ANavS® GNSS receiver cards can be equipped with the following chipsets:
- MOSAIC-X5 (Base module)
- MOSAIC-H (Heading-Version)
- MOSAIC-T (Timing-Version)
Key Facts MOSAIC
- No compromises: The best of both worlds: small sized with solid performance.
- High update rates (>100 Hz) and low latency, both are crucial for control systems of any type of autonomous applications.
- High accuracy centimetre level positioning. Multi-constellations and multifrequency. Full L2 support via P(Y) code.
- Advanced technologies inside: Septentrio’s GNSS+ toolset enables accuracy and reliability in the toughest conditions through:
- AIM+ the most advanced on-board interference mitigation technology on the market (narrow and wide band, chirp jammers).
- LOCK+ for robust tracking during high vibrations and shocks.
- APME+ multipath mitigation to disentangle direct signal and those reflected from nearby structures.
- ONO+ provides advanced protection against ionospheric disturbances.
- Allowing you to carry on with the highest possible efficiency.
These options allow ANavS to offer a tailor-made solution for every application – from high-precision navigation to robust synchronization in GNSS-challenging environments.
Online Ordering
Our products are available at DigiKey and can be ordered online at any time:
Quick overview
Products
Equipped for every situation with the need of high-precise positioning & navigation:V-ROX, A-ROX, G-ROX, MSRTK, Snow Monitoring and M.2 SMART Card.
R&D Projects
Our R&D team is constantly working on researching, developing and implementing new technologies to master the challenges of tomorrow.
Publications
Our publications are varied, provide well-founded findings and present innovative solutions: Journal and Conference papers, Patents and Theses
