| Customization: | Available |
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| Type: | Probe |
| Usage: | Low Altitude Flying Objects |
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Large coverage and high cost-effectiveness
By adopting azimuth mechanical scanning and elevation DBF technology, a wide range of coverage can be achieved while considering economy: azimuth 360 ° and elevation up to+60 °.
High data refresh rate and strong ability to detect mobile targets
By adopting DBF technology, the refresh rate of traditional low altitude radar has been increased from 6s to 1s/2s/3s, which can effectively track maneuvering targets and increase the tracking speed to 150m/s.
High detection probability, low false alarm probability
By utilizing adaptive clutter suppression technology for real-time noise reduction, the false alarm rate is significantly reduced, effectively suppressing ground clutter, sea clutter, and meteorological clutter, greatly expanding the radar's usage scenarios.
Strong portability and easy operation
Adopting a continuous wave system, compared to pulse radar, it has lower transmission power, does not require high-power pulse transmission circuits, significantly reduces power consumption, and also reduces equipment size and weight; Can be carried and set up by a single person, convenient for users to use; At the same time, the human-machine interface is intuitive and simple, with simple configuration, effectively reducing the cost of learning and using radar for users.
Small blind spots at close range and multiple targets detected simultaneously
The problem of continuous wave radar transmitting signals without interruption and large blind spots at close range for pulse free radar. Real time and continuous monitoring can be achieved around the airport for close range targets such as birds and small drones approaching the runway, accurately capturing dynamic changes in the targets; It can automatically track and build navigation for over 200 batches of targets simultaneously, and output high-precision position information.
Low interception rate
Continuous wave radar continuously emits signals with low peak transmission power. In complex electromagnetic environments, it is difficult for the enemy to intercept and identify, and the signal has strong concealment.
Good tracking effect
The radar supports a maximum spatial scanning rate of up to 1Hz and utilizes advanced tracking algorithms to achieve real-time tracking of various highly maneuverable targets, providing users with accurate and intuitive target information.
Good system scalability and integration
The friendly data interface and user interface make it extremely convenient to integrate with other sensing devices, forming an 'anti zero' system.
Resound Research Institute continuously introduces advanced new technologies and products in industrial application scenarios such as market supervision, public safety, environmental monitoring, and science, education, research, and production. This has led to the formation of a domestically produced high-end scientific equipment industry base that integrates design, research and
development, production, sales, and services. This base drives the iteration of downstream industry technology, enhances the transformation and industrialization level of scientific and technological achievements, and provides technological sources for innovative development.
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