X-band Dual-Polarization 1D Planar Phased Array Weather Radar
1D Phased Array, Full Polarization Observation
High spatiotemporal resolution
High data accuracy
Low maintenance costs and long service life
All-solid-state, high reliability
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Description
The OXPA0464-A X-band dual-polarization 1D planar phased array weather radar is the world’s first full-polarization multi-function active phased array radar. The system utilizesa 1D active phased array architecture, full-polarization technology, and all-digital pulse compression and signal processing. Compared to conventional radars, this model is fully solid-state, offering advantages such as low power consumption, high reliability, and superior mobility. Through precise and rapid scanning, the radar performs real-time monitoring of physical parameters including atmospheric circulation, precipitation, and cloud layers within the detection area, providing comprehensive and accurate data support for meteorological forecasting and decision-making.
OXPA0464-A | |
| X-band Dual-Polarization 1D Planar Phased Array Weather Radar | |
Property | Value |
| Detection Rang | >=45km |
| Peak Transmit Power | >=128W |
| Operating Mod | 1D Phased Array |
| Operating Frequency | 9.3GHz~9.5GHz |
| Polarization | Dual-linear polarization |
| Spatial Resolution | <=30m |
| Beamwidth | <=1.3° (Azimuth) / <=1.3° (Elevation) |
| Scanning rang | 0°~360° (Azimuth) / 0°~90° (Elevation) |
| Maximum Duty Cycl | 10% |
| Receiver Noise Figur | <=3.0dB |
| Clutter Rejection Capability | >=50dB |
| Operating temperatur | -40 degC~+55 degC |
| Storage temperatur | -50 degC~+70 degC |
| Operating Humidity | 0% to 95% (non-condensing) |
| Power Consumption | <=1.5kW |
Features | |
| 1D Phased Array, Full Polarization Observation | |
| High spatiotemporal resolution | |
| High data accuracy | |
| Low maintenance costs and long service life | |
| All-solid-state, high reliability | |
Applications | |
| Through precise and rapid scanning, the radar performs real-time monitoring of physical parameters including atmospheric circulation, precipitation, and cloud layers within the detection area, providing comprehensive and accurate data support for meteorological forecasting and decision-making. | |


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