Pan speed | The level is 0.01°~180°/S |
Pan accelerate speed | The horizontal velocity is 0.01°~100°/s⊃2; |
Pan | Rotate continuously from 0 to 360° |
Preset | 200 |
Repeatability accuracy | ≤±0.005° |
Positioning accuracy | ≤±0.05° |
angular resolution | 0.0002° |
Driving forms | Direct-Drive |
Real-time feedback on angles | Support , Output of current azimuth via RS422 |
Autonomous cruise | There are 8 strips, each of which can set 10 cruise points |
Autoreset | The automatic reset time can be set from 1 to 60 minutes |
Autoscan | One |
Continuous scanning | Support |
Auto reset | The motor resets automatically upon power-on |
Protocol | Pelco-D and Pelco-P are optional Platform Control via RS422 Platform Control via Ethernet |
Communication port rate | 115,200 bps (customizable) |
Interfaces to the load | A set of RS422 A set of Gigabit Ethernet A set of power supply |
Control interface | A Gigabit Ethernet group |
Input power supply | DC48V/DC60V ±10% |
Power Consumption | <150W |
Operation temp | -40℃~+55℃ |
Storage temp | -55℃~+65℃ |
Protection grade | IP66 |
Anti-salt-fog | PH value 6.5~7.2, continuous spraying for 48 hours, no surface change |
Load-bearing | >35Kg |
Self-weight of turntable | <10Kg |
Size | 216mm × 208mm × 209mm |
Color | RAL6003 (Supports customer customization) |
Start a free consultation with our engineer to discuss detailed and customization options.
The Single-Axis Rotation Platform is engineered for precise azimuth control and uninterrupted scanning, making it an essential motion core for radar, communication antennas, and surveillance systems. By eliminating the need for complex elevation mechanisms, its streamlined single-axis design significantly reduces system weight and complexity. This not only cuts down on operational costs but also enhances response speed and control accuracy.
Equipped with high-precision motion control, the platform offers absolute position feedback, preset positioning, and programmable scanning, ensuring seamless operation in various monitoring and defense applications. The system has been successfully deployed in counter-UAV systems, border and coastal defense, critical infrastructure protection, and surveillance operations, proving its reliability and precision even in the most demanding environments. Ideal for modern defense and monitoring solutions, it guarantees top-tier performance with easy integration.
Designed exclusively for horizontal (azimuth) rotation, the platform eliminates unnecessary elevation mechanisms, resulting in higher reliability, faster response, and improved positioning accuracy for applications requiring continuous or indexed horizontal scanning.
A scalable mechanical architecture supports a broad range of payloads, from compact EO cameras and antennas to large radar systems, ensuring stable operation under both light and heavy loads.
Supports Pelco P/D protocol over RS-485 / RS-422 / RS-232, with full motion control functions including presets, programmable scanning, and absolute position feedback, enabling seamless integration into existing surveillance and command systems.
Deployed in counter-UAV, border security, coastal surveillance, and telecommunications systems, the platform is engineered for continuous operation in harsh outdoor environments.
Air Defense Radar: Used for monitoring airborne targets, providing early warnings, and helping defense systems track enemy aircraft, missiles, or other threats.
Counter-UAV Radar: Specifically designed for detecting, tracking, and neutralizing unmanned aerial vehicles (UAVs), playing a critical role in military and border security.
Naval Radar: Installed on ships for maritime surveillance, enemy vessel tracking, and sea traffic management.
Ground Surveillance Radar: Used for border security, critical infrastructure protection, and tracking targets in specific areas.
Air Traffic Control Radar: Monitors the airspace for aircraft, ensuring aviation safety, preventing collisions, and managing air traffic flow.
Weather Radar: Used to monitor meteorological conditions such as storms, rainfall, snow, and other weather phenomena, helping with weather forecasting and issuing warnings.
Satellite Radar: Deployed on satellites to monitor Earth's surface, used in remote sensing and geographic exploration.
Traffic Radar: Used for road monitoring, traffic flow analysis, and speed detection, commonly seen in highways and urban traffic management systems.
Autonomous Driving Radar: Provides obstacle detection, distance measurement, and environmental perception for autonomous vehicles, ensuring safe driving.
Meteorological Radar: Detects precipitation, storms, tornadoes, and other atmospheric conditions, helping weather forecasting and disaster warning systems.
Satellite Weather Radar: Used for monitoring atmospheric changes, ocean surfaces, and terrestrial changes, providing global weather data.
Ground Penetrating Radar (GPR): Used to explore underground structures, such as groundwater, mineral deposits, archaeological sites, and other subterranean objects.
Biomedical Radar: Applied in medical fields for monitoring body tissues or organs, such as radar imaging technologies in healthcare.
Marine Radar: Used for maritime observation, including ocean current monitoring, sea condition warnings, and providing navigational support for ships.
Anti-Submarine Radar: Designed for detecting underwater targets like submarines, playing a crucial role in naval operations.
Environmental Monitoring Radar: Used to detect harmful substances, gas leaks, or pollution in the environment, protecting ecosystems.
Border Surveillance Radar: Installed along border areas to prevent illegal cross-border activities and strengthen security checks.
Supporting fully customizable controls of every sensor, gimbal, smart function and pan tilt size/color to your specifications.
Pan speed | The level is 0.01°~180°/S |
Pan accelerate speed | The horizontal velocity is 0.01°~100°/s⊃2; |
Pan | Rotate continuously from 0 to 360° |
Preset | 200 |
Repeatability accuracy | ≤±0.005° |
Positioning accuracy | ≤±0.05° |
angular resolution | 0.0002° |
Driving forms | Direct-Drive |
Real-time feedback on angles | Support , Output of current azimuth via RS422 |
Autonomous cruise | There are 8 strips, each of which can set 10 cruise points |
Autoreset | The automatic reset time can be set from 1 to 60 minutes |
Autoscan | One |
Continuous scanning | Support |
Auto reset | The motor resets automatically upon power-on |
Protocol | Pelco-D and Pelco-P are optional Platform Control via RS422 Platform Control via Ethernet |
Communication port rate | 115,200 bps (customizable) |
Interfaces to the load | A set of RS422 A set of Gigabit Ethernet A set of power supply |
Control interface | A Gigabit Ethernet group |
Input power supply | DC48V/DC60V ±10% |
Power Consumption | <150W |
Operation temp | -40℃~+55℃ |
Storage temp | -55℃~+65℃ |
Protection grade | IP66 |
Anti-salt-fog | PH value 6.5~7.2, continuous spraying for 48 hours, no surface change |
Load-bearing | >35Kg |
Self-weight of turntable | <10Kg |
Size | 216mm × 208mm × 209mm |
Color | RAL6003 (Supports customer customization) |
Start a free consultation with our engineer to discuss detailed and customization options.
The Single-Axis Rotation Platform is engineered for precise azimuth control and uninterrupted scanning, making it an essential motion core for radar, communication antennas, and surveillance systems. By eliminating the need for complex elevation mechanisms, its streamlined single-axis design significantly reduces system weight and complexity. This not only cuts down on operational costs but also enhances response speed and control accuracy.
Equipped with high-precision motion control, the platform offers absolute position feedback, preset positioning, and programmable scanning, ensuring seamless operation in various monitoring and defense applications. The system has been successfully deployed in counter-UAV systems, border and coastal defense, critical infrastructure protection, and surveillance operations, proving its reliability and precision even in the most demanding environments. Ideal for modern defense and monitoring solutions, it guarantees top-tier performance with easy integration.
Designed exclusively for horizontal (azimuth) rotation, the platform eliminates unnecessary elevation mechanisms, resulting in higher reliability, faster response, and improved positioning accuracy for applications requiring continuous or indexed horizontal scanning.
A scalable mechanical architecture supports a broad range of payloads, from compact EO cameras and antennas to large radar systems, ensuring stable operation under both light and heavy loads.
Supports Pelco P/D protocol over RS-485 / RS-422 / RS-232, with full motion control functions including presets, programmable scanning, and absolute position feedback, enabling seamless integration into existing surveillance and command systems.
Deployed in counter-UAV, border security, coastal surveillance, and telecommunications systems, the platform is engineered for continuous operation in harsh outdoor environments.
Air Defense Radar: Used for monitoring airborne targets, providing early warnings, and helping defense systems track enemy aircraft, missiles, or other threats.
Counter-UAV Radar: Specifically designed for detecting, tracking, and neutralizing unmanned aerial vehicles (UAVs), playing a critical role in military and border security.
Naval Radar: Installed on ships for maritime surveillance, enemy vessel tracking, and sea traffic management.
Ground Surveillance Radar: Used for border security, critical infrastructure protection, and tracking targets in specific areas.
Air Traffic Control Radar: Monitors the airspace for aircraft, ensuring aviation safety, preventing collisions, and managing air traffic flow.
Weather Radar: Used to monitor meteorological conditions such as storms, rainfall, snow, and other weather phenomena, helping with weather forecasting and issuing warnings.
Satellite Radar: Deployed on satellites to monitor Earth's surface, used in remote sensing and geographic exploration.
Traffic Radar: Used for road monitoring, traffic flow analysis, and speed detection, commonly seen in highways and urban traffic management systems.
Autonomous Driving Radar: Provides obstacle detection, distance measurement, and environmental perception for autonomous vehicles, ensuring safe driving.
Meteorological Radar: Detects precipitation, storms, tornadoes, and other atmospheric conditions, helping weather forecasting and disaster warning systems.
Satellite Weather Radar: Used for monitoring atmospheric changes, ocean surfaces, and terrestrial changes, providing global weather data.
Ground Penetrating Radar (GPR): Used to explore underground structures, such as groundwater, mineral deposits, archaeological sites, and other subterranean objects.
Biomedical Radar: Applied in medical fields for monitoring body tissues or organs, such as radar imaging technologies in healthcare.
Marine Radar: Used for maritime observation, including ocean current monitoring, sea condition warnings, and providing navigational support for ships.
Anti-Submarine Radar: Designed for detecting underwater targets like submarines, playing a crucial role in naval operations.
Environmental Monitoring Radar: Used to detect harmful substances, gas leaks, or pollution in the environment, protecting ecosystems.
Border Surveillance Radar: Installed along border areas to prevent illegal cross-border activities and strengthen security checks.
Supporting fully customizable controls of every sensor, gimbal, smart function and pan tilt size/color to your specifications.
