Tower-Mounted Ground Surveillance Radar

PGSR-3iFT

Displaying items by tag: surveillance radar

Tuesday, 04 September 2018 13:29

PGSR-3iFT ’Beagle’

PGSR-3iFT ’Beagle’

TOWER-MOUNTED GROUND SURVEILLANCE RADAR

PGSR-3iFT Beagle

PGSR-3iFT ’Beagle’ is a tower-mounted radar for detection, tracking and classification of targets moving on or close to the ground.

PGSR-3iFT ’Beagle’ is a member of our fix radar family together with the coastal sea surveillance radar. It was designed for desert and harsh environment operation. It is placed inside a hermetically sealed Radom to withstand extreme weather and environmental challenges..

BENEFITS

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Remote operation with IP communication

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Intelligent ruling element in sensor system

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Long detection range

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Integration with camera subsystems

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Integration with C4i systems, local operation

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Key element of large border security systems

WIDE RANGE OF USAGE

The radar PGSR-3iFT ’Beagle’ is member of the PGSR Beagle family of FMCW radars, making use of all advantages specific to this excellent and well-proven radar class. Mounted on top of towers, it is watching and collecting information from the surrounding area practically from 360 degree. Numerous camera vendors are supported; new camera integration is standard procedure. Optionally camera integration/control hardware is available. The radar PGSR-3iFT ’Beagle’ is key element of sensor systems for early warning, illegal border crossing prevention and threat recognition along extensive border sections in desert or harsh environment. Improve the resilience passive cooling was deployed, no ventilator used for cooling. If several radars are operated, neighboring radars cover shadow zones of each other, to achieve full coverage of surveillance area. Radar operating channels are selectable and adjustable. Neighboring radars do not disturb each other even if radiating and receiving signals over a common area. The PGSR-3iFT ’Beagle’ radars are the highest level ruling intelligent units in the radar-camera-sensor modules hierarchy. The radar controls cameras: activates, directs, ”slews to cue” etc.

OVERVIEW

The radar is controlled from the local operator unit or remote command center. The radar’s control software ADAMS is capable of utilizing various map formats and displaying the detected targets over the map. PGSR-3iFT ’Beagle’ is the intelligent ruling unit that performs activation, coordination and control of thermal cameras, daylight cameras and other sensors. All surveillance data and user interaction events are logged and can be replayed for further analysis.

TECHNICAL PARAMETERS

SURVEILLANCE AND DATA PROCESSING
Detection Ranges
Scanning Modes
Scan Rate
Accuracy
Detectable Radial Velocity
Target Capacity
Other Features
 
Pedestrian | (RCS 0.5 m²) | 8 km
Soldier | (RCS 1 m²) | 10 km
Vehicle | (RCS 10 m²) | 15 km
Large vehicle | (RCS 50 m²) | 24 km
Sector Scan (6° – 346°)
Continuous Rotation (n x 360°)
7°/sec or 14°/sec
Range: 3 m at 3 km range
Azimuth: ≦ 0.3°
from 1.0 km/h at 7°/sec scan rate
from 1.7 km/h at 14°/sec scan rate
10 plots / sec
Track While Scan, Clutter map, Spot Window, Doppler Audio, Automatic Classification, LPI, STC, CFAR

TECHNICAL PARAMETERS
Operation Principle
Frequency Band
Transmitted Power
Power Requirements
Selectable output channels
Operation
Environmental Specifications
Control levels
MTBF
Data/Control Interface
 
FMCW
X Band (NATO I/J Band)
max. 2W
28 V DC (22 – 33 V DC), max. 50 W
32
Continous 365/24
Tested according to MIL-STD-810G
Automatic, autonomous, local control, remote control
> 10 000 hrs
RS-485, Ethernet

FURTHER FEATURES
Low Radiated Power for Human Safety
Comprehensive BIT
32 Fixed channel and automatic hopping
Controller software: Freely Configurable Alarm and Dumb Zones, Map Handling, Fully Logged Operation and Replay, over 300 displayed tracks and 1000 displayed plots

BORDER SURVEILLANCE & ALARM SYSTEM
Multiple connected Beagle FT radars provide hermetical protection against illegal border crossers
Radars and cameras mounted on towers
Integrated in system: local, medium size or C4I
Thermal and daylight camera ranges are matched to radar range
Note: Distances are calculated based on geometrical values and do not take into account atmospheric conditions

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Published in Radar
Tuesday, 04 September 2018 13:29

MBR-3D

MBR-3D

GROUND & AIR SURVEILLANCE RADAR

MBR-3D

The MBR-3D radar is the next generation of Ground & Air Surveillance Radars (GASR).

BENEFITS

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Unique capability: Drone, UAV and Human Detection in same radar

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DBF and unique
Tx AESA
technology

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No moving parts, fully solid state

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Continuous real time detection and tracking

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Compact and light weight

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Advanced operation software

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Fully integration ready (C4I/EO)

OVERVIEW

The Radar is capable to continuously detect Drone, UAV and Human targets. The Radar provides automatic detection, tracking and classification of the targets. The Radar is based on Frequency Modulated Continuous Wave (FMCW) technology enabling high MTBF. It utilizes unique AESA transmission. Low power and continuously changing frequency providing for Low Probability of detection and Interception (LPI). The Radar utilizes multiple frequency channels in a wide operating frequency range to enable eliminating potential environmental disturbances and interferences and to adapt to the operating environment.
Embedded GPS and magnetic compass units are built-in for quick deployment and settings. The Radar can be fixed or portable due to its low weight and provides easy installation in hardly accessible locations. The Radar is certified to withstand and operate in harsh environmental conditions and is suited for off-road vehicles transportation conditions.
The Radar is fully solid state, advanced digital design, providing for very high MTBF. The Radar is designed for easy integration with Command and Control Systems and can be interfaced via Ethernet 1G.

TECHNICAL PARAMETERS

SURVEILLANCE AND DATA PROCESSING
Detection Ranges
Azimuth Coverage
Elevation Coverage
Instrumented Range
Accuracy
Minimum Detectable Radial Velocity
Number of tracks
 
Drone | (RCS 0.05 m²) | 3 km
Pedestrian | (RCS 0.5 m²) | 6 km
Soldier | (RCS 1 m²) | 7 km
Vehicle | (RCS 10 m²) | 12 km
90° with DBF staring beams (one antenna unit)
>90° single antenna unit with Positioner or 180° & 360° with multiple antenna units (non-moving)
30° with AEASA Tx
4, 8, 12 km
Range: 15m
Azimuth: 0.5°
Elevation: 4°
1.0 km/h
> 500

TECHNICAL PARAMETERS
Operation Principle
Frequency Band
Transmitted Power
Power Requirements
Temperature Ranges
Radar Weight
Radar Unit Size
MTBF
Data/Control Interface
 
FMCW -Doppler with DBF& AESA
X Band
max. 16W
24-32 VDC
500 W (one antenna unit)
Operation: -32°C to +55°C
Storage: -40°C to +60°C
24 kg (one antenna unit)
60 x 25 x 25 cm (one antenna unit)
> 20,000 hrs
Ethernet 1G (optional RS-485)

FURTHER FEATURES
Integrated GPS and North Finding Device
RF channels automatic hopping
Low Radiated Power for Human Safety
Built-In-Test (BIT)
Controller software: Freely Configurable Alarm and Dumb Zones, Map Handling, Fully Logged Operation and Replay, over 500 displayed tracks32 RF channels and automatic hopping

ACCESSORIES
Operator unit with 230 VAC and vehicle chargers
Power Adapter
Tripod (optional)
Transportation cases

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Published in Radar
Tuesday, 04 September 2018 13:29

MBR-2D

MBR-2D

MULTIBEAM GROUND SURVEILLANCE RADAR

MBR-2D

The MBR-2D radar is the next generation of man-portable medium range Ground Surveillance Radars (GSR).

BENEFITS

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Extremely low false alarms

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Continuous real time detection and tracking

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Advanced Operator software

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No moving parts, fully solid state

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Compact and light

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Fully integration ready (C4I/EO)

OVERVIEW

The Radar is capable to continuously (without any time gap) detect ground and low flying small aircraft and rotorcraft. The Radar provides detection, automatic tracking and classification of the targets. Both automatic and manual target classification is available to the operator. The Radar is based on Frequency Modulated Continuous Wave Technology (FMCW). It utilizes low transmission power and continuously changing frequency providing for low probability of detection and interception (LPI).
The Radar utilizes 32 frequency channels in a wide operating frequency range to eliminate potential environmental disturbances and interferences and to adapt to the operating environment.
Embedded GPS and magnetic compass unit are installed for quick deployment and settings. The Radar is portable due to its low weight and provides easy installation in hardly accessible locations. The Radar is certified to withstand and operate in harsh environmental conditions and is suited for terrain vehicles transportation conditions.

The Radar is fully solid state, low power and low dissipation design, providing for very high MTBF. The Radar is designed for easy integration with command and control systems and can be interfaced via Ethernet or RS485.

TECHNICAL PARAMETERS

SURVEILLANCE AND DATA PROCESSING
Detection Ranges
Azimuth Coverage
Instrumented Range
Accuracy
Detectable Radial Velocity
Number of tracks
 
Pedestrian | (RCS 0.5 m²) | 8 km
Soldier | (RCS 1 m²) | 9.5 km
Vehicle | (RCS 10 m²) | 17 km
Continuous staring
90° single unit
360° coverage with 4 units: 1 sec. scan
or 360° coverage with 1 units: 9 sec. scan
8, 12, 16, 24 km
Range: 10m (RMS) Azimuth: 0.5°
1 - 300 km/h
> 500

TECHNICAL PARAMETERS
Operation Principle
Frequency Band
Transmitted Power
Power Requirements
Temperature Ranges
Radar Weight
Radar Unit Size*
Data/Control Interface
 
FMCW DBF
X Band
from 4 W to 35 W
24-32 VDC 240 W
Operation: -30°C to +45°C
Storage: -40°C to +50°C
24 kg
78 x 44 x 14 cm
RS-485, Ethernet

FURTHER FEATURES
Integrated GPS and North Finding Device
Low Radiated Power for Human Safety
Artillery correction mode option
Comprehensive BIT
24 RF channels and automatic hopping
Controller software: Freely Configurable Alarm and Dumb Zones, Map Handling, Fully Logged Operation and Replay

ACCESSORIES
Power Adapter
Tripod or fixed installation
Operator unit with 230 VAC and vehicle chargers
Transportation cases

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Published in Radar
Tuesday, 04 September 2018 13:43

Vehicle Mounted Ground Surveillance System

MGS3 ‘Scout’

VEHICLE MOUNTED GROUND SURVEILLANCE SYSTEM

MGS3 Scout

The MGS3 ‘Scout’ Vehicle is a mobile surveillance unit offering a unique cost-efficient defense solution providing an increased capability of early threat recognition and improved perimeter control.

BENEFITS

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Vehicle mounted multisensor system

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Common user interface with multiple display units

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Easy to deploy / pack

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Long time surveillance scenarios

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Cost efficient

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Covert surveillance equipment

WIDE RANGE OF USAGE

MGS3 ‘Scout’ is designed for long range security patrols, for controlling large areas and defending mobile targets, and for situations where security demands a perpetual adaptation of reconnaissance patterns. The operators of an MGS3 ’Scout’ will be able to quickly redefine the boundaries of the controlled area to instantly react to any situation that may arise.

OVERVIEW

The MGS3 ’Scout’ is a vehicle equipped with a number of surveillance modules, a PGSR-3i ‘Beagle’ radar unit, an electro optical sensor array and a Command Center.
The PGSR-3i ‘Beagle’ provides continuous observation of a large area detecting any movements, while the electro optical sensor array provides detailed picture of any detected targets for accurate identification useable in both day and night operation.
The electro optical head and the radar are mounted on retractable masts. The vehicle is assembled with a leveling system in order to stabilize and level the sensors. The high capacity battery system provides enough power for long time surveillance scenarios, but the working hours can be extended by a backup generator.The operating platform, Pro Patria Electronics’ unique Adaptive Multisensor System, presents an easy to operate user interface, offering the possibility of multi-tasking and educated decision-making to the operator. The software is capable of utilizing different map formats and displaying the detected targets over the map. The video of the cameras and the control functions are also integrated into the same system proving even automatic slew-to-cue functions. Every surveillance data and user interaction is recorded and can be replayed for further analysis.

TECHNICAL PARAMETERS

GENERAL HARDWARE SETUP AND CHARACTERISTICS
Instrumentation
Vehicle options
Power supply
 
PGSR-3i ’Beagle’ radar unit
Electro-Optical Sensor Array (EOSA)
Masts
Leveling system
Command center
Other instruments as needed
Any vehicle as needed
Vehicle-built-in battery set (24V DC) for 4-8 hours battery operation
Power generator and charger (230V AC)

PGSR-3i ‘Beagle‘
Detection Ranges
Scanning Modes
Scan Rate
Accuracy
Detectable Radial Velocity
Target Capacity
Other Features
Environmental Specifications
 
Pedestrian | (RCS 0.5 m²) | 8 km
Soldier | (RCS 1 m²) | 10 km
Vehicle | (RCS 10 m²) | 15 km
Large vehicle | (RCS 50 m²) | 24 km
Sector Scan (6° – 346°)
Continuous Rotation (n x 360°)
7°/sec or 14°/sec
Range: 3 m at 3 km range
Azimuth: < 0.3°
from 1.0 km/h at 7°/sec scan rate
from 1.7 km/h at 14°/sec scan rate
10 plots / sec
Track While Scan, Clutter map, Spot Window, Doppler Audio, Automatic Classification, LPI, STC, CFAR
Tested according to MIL-STD-810G

EOSA 225 (Option A)
Thermal Imager
Thermal Engine
Spectral Band
NETD
Lens F#
Focal Length
Field of View
Daylight Camera
Effective Pixels
Focal Length
Field of View
Pan and Tilt
Pan Range
Tilt Range
Position Accuracy
Pan/Tilt angular speed
Environmental Specifications
 

17μm 640 x 480 pixels
7.5 – 14μm (Uncooled)
lower than 50° mK
f / 1.5
25 – 225 mm (Continuous)
24.5° to 2.77°

752 x 582 pixels
10 – 320 mm (Continuous)
35.3° to 1.1°

360 Continuous
± 45°
± 1.5 mRad
0.1°/s to 50°/s
MIL-STD-810G

EOSA 275 (Option B)
Thermal Imager
Thermal Engine
Spectral Band
NETD
Lens F#
Focal Length
Field of View
Daylight Camera
Effective Pixels
Focal Length
Field of View
Pan and Tilt
Pan Range
Tilt Range
Position Accuracy
Pan/Tilt angular speed
Environmental Specifications
 

15μm 640 x 512 pixels
3 – 5μm(Cooled)
lower than 25° mK
f / 5.5
19 – 275 mm (Continuous)
29.8° to 2.0°

752 x 582 pixels
10 – 320 mm (Continuous)
35.3° to 1.1°

360 Continuous
± 45°
± 1.5 mRad
0.1°/s to 50°/s
MIL-STD-810G

SPECIAL FEATURES
-Display and Control sensors from one user interface
-Support of multiple monitors and split screens
-Record and replay of all displayed data
-Automatic optical target follow
-Periodic polling of optical marker points

Tuesday, 04 September 2018 13:42

Adaptive Multisensor System

ADAMS

ADAPTIVE MULTISENSOR SYSTEM

ADAMS

The Adaptive Multisensor System integrates a wide range of surveillance sensors such as radars, thermal imagers, video cameras and other devices into one complex but easily usable system.

While the radars provide continuous observation of a large area detecting any movements, the electro optical sensor arrays provide detailed picture of any targets for accurate identification.
The software layer of the ADAMS is a Windows® operating system based application, fully controllable by one operator. The software uses map based visualization which presents the geo-located sensors, detected targets and Points of Interest with easily understandable, user friendly icons. The controller software provides enhanced situational awareness by integrating several devices, such as radars and electro-optical sensors into a complex but easily usable multisensor system. The adaptive algorithms couple the different devices and provide a smooth slew to cue operation. The scalable network architecture allows sensors to distribute their data to multiple clients and provides remote control functionality. All radar detections, classified tracks, video frames and operator interactions are automatically recorded and can be easily replayed by the software.

BENEFITS

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Wide range of integrated devices

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Smooth slew to cue (camera) operation

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Scalable network architecture
range

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Intuitive, easy to learn graphical user interface with user friendly icons

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Large range of raster and vector map formats (Geo Tiff, DTED, SHP, geo referenced images)

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Fully logged operation and replay

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Easy to integrate into more complex C4i systems.

WIDE RANGE OF USAGE

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Radar

Our ‘Beagle’ and ‘Beagele FT’ radars are capable of detecting and recognizing moving targets on or close to the ground. The high tech DSP technologies can differentiate between moving and stationary targets. Based on the state-of-art technology, our radars can determine the exact parameters of the detected targets; can track and classify the movements even in changing environmental conditions.

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Thermal Camera

Thermal cameras provide an easily understandable view of the observed area even at poor visibility conditions. These cameras are detecting the thermal radiation of the observed objects, humans and animals. Thermal cameras can be used in darkness and actually at all weather conditions, the cooled models are useable in foggy and rainy environment, while the uncooled ones are more fit to see through smoke.

READ MORE

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Video Camera

These devices are providing the well known visual image of the observed area. The wide zoom capability enables the user to see the same image in the optical range as the thermal imager presents, but the user can see the overview of the area. The high tech algorithms provide automatic target following, classification and alarm to the user.

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Others

Our system is capable to control and process data from sensors which are using different operation principles. We can handle acoustic and seismic sensors, optical or microwave barriers, motion detectors, etc. These products can complete the capabilities of the electro-optical sensors and can fulfill special requirements.

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CONTROL SOFTWARE


Software Architecture
The basic software of the control system is the Sensor Manager Server (SMS) that performs direct communication with the connected sensors and forwards their output data. Visualization is realized in the Sensor Control Interface (SCIN) that displays data delivered by SMS in required format and provides full sensor control functionality from this surface. The SMS can serve several SCINs and the SCIN can control a number of SMSs. So the sensors distributed over the surveillance area can not only be directly controlled by their dedicated operator unit but also can be addressed and requested by a remote control center or other remote sites.

Special Features

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Display and Control sensors from one user interface

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Support of multiple monitors and split screens

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Record and replay of all displayed data

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Automatic track forming and classification

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Automatic optical target following

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Periodic polling of optical marker points

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Visualization of targets by icons

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Access by authorization levels

IMAGE GALLERY

Published in Software
Wednesday, 22 April 2020 06:20

‘Atlas’ Through Hole Pan and Tilt Unit

''Atlas'

THROUGH HOLE PAN AND TILT UNIT

ATLAS

‘Atlas’ Through Hole Pan and Tilt Unit is a two-axis mechanism that was own-designed and developed by Pro Patria Electronics for ground surveillance radar and electro-optical camera system to provide positioning even in windy conditions and enable angular motion in azimuth and elevation.

MAIN FUNCTIONS

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High-precision

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Durable

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Multi-purpose usage (radar, camera)

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Low power consumption

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Uninterrupted movement of the sensors

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Fast motion

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Reliable in harsh environment

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Customer-tailored camuflage pattern

Atlas
Atlas

MAIN ADVANTAGES

There is a D183mm diameter hole along the horizontal axis of the gearbox, which allows it to be threaded onto a telescopic mast. Thus, when integrated into a vehicle, the folded height can be minimized, and when open, the sensor at the top of the mast (in our case a radar) moves away from the camera, so they do not interfere with each other in motion or electronics (compass).
Stabilized gearbox
Internal cabling (Thermal / Daylight camera can be docked to the drive)
The sensor cables at the top of the mast are routed through the ‘Atlas’ Through Hole Pan and Tilt Unit

Atlas
Atlas

TECHNICAL PARAMETERS

SYSTEM SPECIFICATION I.
Power Supply
Dimensions (W x D x H)
Payload
Sensor Interface
Control Interface
Operating Temperature
Storage Temperature
Weight
Environmental Protection
 
24V DC
610 x 380 x 337
2 x 35 kg (optionally 2 x 45 kg)
5x serial line
TCP/IP
-32°C to + 70°C
-40°C to + 70°C
40 kg
IP 67

SYSTEM SPECIFICATION II.
Horizontal movement
Vertical movement
Max. Bore Diameter
Azimuth speed
Elevation speed
Azimuth Positioning Accuracy
Elevation Positioning Accuracy
 
infinite, 360°
infinite, 360°
D 183 mm
0,02°/s to 150°/s (optionally 0,005°/s to 50°/s)
0,02°/s to 100°/s (optionally 0,005°/s to 40°/s)
< +/- 0,4 mrad (optionally 0,25 mrad)
< +/- 0,4 mrad (optionally 0,25 mrad)
This product is under development in protorype phase. If you have any question please contact This email address is being protected from spambots. You need JavaScript enabled to view it.. Shipment terms: approx. 6 months after received order (ARO)

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Published in Other
  • Könyves Kálmán krt. 12-14
    BUDAPEST, H-1094
    HUNGARY
  • +36 1 322 7010
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