mosaic-CLAS
GNSS module with PPP-RTK corrections for Japan
- Small size, big performance
- Multi-constellation, multi-frequency including L6 CLAS support
- Best-in-class RTK performance
- AIM+ unique interference monitoring and mitigation system + advanced other GNSS+ algorithms
- Industry-leading ultra-low power consumption
- Easy-to-integrate
- Japan's Centimeter Level Augmentation Service (CLAS) integrated

Illustrative image for Septentrio mosaic-CLAS GNSS Receiver Web User Interface (WebUI)
GNSS technology
GPS: L1C/A, L2C, L2P
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GLONASS: L1CA, L2CA
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Beidou: B1I, B1C, B3
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Galileo: E1, E5b
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QZSS: L1C/A, L2C, L6
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Septentrio’s patented GNSS+ technologies
Interfaces
Maximum update rate
Position
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100 ns |
Measurements only
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100 ns |
Latency
<10 |
Time precision
xPPS out
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5 |
Related knowledge base articles
Insights

Integrity: Can you really trust your GPS position?
So you’re getting a consistent position from your receiver, but how do you know that this position is correct? Find out what is meant by integrity of GNSS receiver positioning and why it is important.

GNSS Corrections Demystified
GNSS Corrections play a vital role in high-accuracy positioning. This insight explores the concept of GNSS corrections and the three top correction methods: RTK, RTK-PPP and PPP. It highlights their strengths and weaknesses and offers insight to help decide which correction method might work best for your technology.

How GNSS Receivers Empower Smart Cities
It is essential to make large cities more sustainable, efficient, and livable whilst ensuring safety, security, and health.