The general-purpose GNSS is a GNSS receiver developed for field geological disaster monitoring based on low-power ICs and high-precision positioning technology . It has an integrated structure with a significantly reduced overall cost, as well as high precision, high frequency, high integration and low power consumption. It is applicable to the monitoring of geological disasters such as landslide, collapse, debris flow and the slope deformation of roads, buildings, reservoirs, mines and tailings ponds.
High frequency: positioning data is collected and calculated in seconds
Stable data: data is uploaded with low volatility, good stability, high signal-to-noise ratio and visible curves
Supports multiple satellites and frequencies: supports Beidou and GPS signals with a low failure rate and strong data continuity
High integration: built-in MEMS micro-sensor
Low power consumption: power consumption reduced to 2W and high endurance.
| Static relative accuracy(Horizontal) | 5mm 1ppm RMS |
| Static relative accuracy(Vertical) | 10mm 1ppm RMS |
| Dynamic relative accuracy(Horizontal) | 10mm 1ppm RMS |
| Dynamic relative accuracy(Vertical) | 20mm 1ppm RMS |
| Sampling interval | In seconds |
| Upload interval | 1min/1h/1day, motion-triggered reporting |
| Output signal | 2/3/4G |
| Working moed | BDS GPS/binary four-frequency,supports dynamic adaptive monitoring frequency adjustment |
| Power consumption | <2W |
| Operating temperature | -20℃~65℃ |
| Protection level | IP67 |
MIMO Type Rotary Type Rail-mounted Type GNSS Edge Light Type Tower Type Mobile Type