Marquesan Systems Incubator (WIP)
Posted: Fri Sep 22, 2017 7:45 pm
Nomenclature: APAx.10F/R "Deneb"
Classification: Compact AESA 3D Targeting Radar
Operation Mode: X-Band, 10W ERP, 20 Hz Update Speed
Design Spec: 10,000 Meters Detection Range, 100 Simultaneous Tracks
Notes: Ultralight Fire Control Radar, 120°/Sec Rotation
Nomenclature: APAx2.250F/R "Rigel"
Classification: Air/Ground 3D Targeting Radar, 2-Beam Processing, 70° FFOV
Operation Mode: X-Band AESA, 250W ERP, 30 Hz Update Speed
Design Spec: 60,000 Meters Detection Range, 400 Simultaneous Tracks
Notes: Lightweight/Compact, High Clutter Suppression, Rotator or Fixed Panel
Nomenclature: APAc3.500F "Spica"
Classification: Naval/Ground-Based Search Radar, 3-Beam Processing, 130° FFOV
Operation Mode: C-Band AESA, 500W ERP, 60 Hz Update Speed
Design Spec: 300 Km Detection Range, 500 Simultaneous Tracks
Notes: 0.01 m² RCS High-Probability Detection, Non-Cooperative Recognition
Nomenclature: APAx4.1500F "Altair"
Classification: Synthetic Aperture Imaging Radar, 4-Beam Processing, 110° FFOV
Operation Mode: X-Band AESA, 1,500W ERP, 45 Hz Update Speed
Design Spec: 400 Km Detection Range, 600 Simultaneous Tracks
Notes: ECM Resistant, All-Weather Air & Surface Surveillance
Nomenclature: APAs5.2000F/R "Bellatrix"
Classification: Naval/Ground-Based Tracking Radar, 35-Beam Processing, 90° FFOV
Operation Mode: S-Band AESA, 2,000W ERP, 75 Hz Update Speed
Design Spec: 500 Km Detection Range, No-Blind Speed Coverage < Mach 25
Notes: 0.5m² RCS High-Probability Detection, Hypersonic/Ballistic Optimized
Nomenclature: APAx50K.500KR "Canopus"
Classification: Naval Missile Tracking Radar, X-Band Active Electronically-Scanned Array (AESA)
Operation Details: 50,000 Feedhorns @ 10W Peak Power, 500 kW Peak Power, 400 m2 Array Antenna
Azimuth & Elevation: 360° in 45 Sec @ 8°/Sec / -0°/+80° @ 8°/Sec
Notes: 0.0033 m2 RCS Detection @ 4,000 Km, 0.1° Beamwidth
Adaptive Multispectral Panoramic Imager (AMPI)
"False Daylight" Sensor Fused Stabilized Optics
Nomenclature: AMPI.gL "Auriga", Adaptive Thermal Remote Gunsight Pod
Dual-Band M/LWIR Focal Plane Array Sensor, 10 Megapixel, 60° Field-of-View
1-20x Power-Telephoto Zoom Lens, Anti-Reflective-Coated Sapphire Glass
InGaAs System-on-Chip Targeting Computer, Designation Range: 12m - 40,000m
+ Eyesafe Laser Rangefinder: 1570nm 30hz, 10ns Pulse Duration
+ Eyesafe Laser Designator: 1064nm 8-20hz
Nomenclature: AMPI.mL "Corvus", Adaptive Thermal Missile Seeker
Dual-Band M/LWIR Focal Plane Array Sensor, 10 Megapixel, 60° Field-of-View
145°/sec High-Speed Gimbal, Electrothermal Cooling FPA (Missle Seeker Only)
InGaAs System-on-Chip Targeting Computer, Designation Range: 12m - 40,000m
+ Laser Spot Detector, 190° Wide Angle, Passive Multiple-Target, 0.5 μm - 1.65 μm
Nomenclature: AMPI.vL "Fornax", Vehicle Periscope/Turret Sight, Electrothermally Cooled Stare & Scan Optronics Ball
Dual-Band M/LWIR Focal Plane Array Sensor, 10 Megapixel, 60° Field-of-View
Low Light Level Daylight Camera, 10 Megapixel, 75° Field-of-View
1-30x Power-Telephoto Zoom Lens, -45° to +120° Elevation Range, 40°/sec Traverse
InGaAs System-on-Chip Targeting Computer, Designation Range: 12m - 50,000m
+ 3D Laser Scanner: 1550nm/658nm Dual Axis Compensation, 10km Max Range
+ Eyesafe Laser Rangefinder: 1570nm 30hz, 10ns Pulse Duration
+ Eyesafe Laser Designator: 1064nm 8-20hz
+ Laser Spot Detector, 190° Wide Angle, Passive Multiple-Target, 0.5 μm - 1.65 μm
Nomenclature: AMPI.aL "Aquila", Airborne Stare & Scan Targeting System (EOTS)
Dual-Band M/LWIR Focal Plane Array Sensor, 10 Megapixel, 60° Field-of-View
Low Light Level Daylight Camera, 10 Megapixel, 75° Field-of-View
1-40x Power-Telephoto Zoom Lens, Electrothermally Cooled Optronics Ball or Fixed Blister
InGaAs System-on-Chip Targeting Computer, Designation Range: 12m - 60,000m
+ 3D Laser Scanner: 1550nm/658nm Dual Axis Compensation, 10km Max Range
+ Eyesafe Laser Rangefinder: 1570nm 30hz, 10ns Pulse Duration
+ Eyesafe Laser Designator: 1064nm 8-20hz
+ Laser Spot Detector, 190° Wide Angle, Passive Multiple-Target, 0.5 μm - 1.65 μm
Nomenclature: AMPI.nL "Volans" Naval/Submarine Stare & Scan Optronics Ball
Electrothermally Cooled, Hermetically-Sealed Array
Dual-Band M/LWIR Focal Plane Array Sensor, 10 Megapixel, 60° Field-of-View
Low Light Level Daylight Camera, 10 Megapixel, 75° Field-of-View
1-80x Power-Telephoto Zoom Lens, 60°/Sec Traverse
InGaAs System-on-Chip Targeting Computer, Designation Range: 12m - 120,000m
+ 3D Laser Scanner: 1550nm/658nm Dual Axis Compensation, 10km Max Range
+ Eyesafe Laser Rangefinder: 1570nm 30hz, 10ns Pulse Duration
+ Eyesafe Laser Designator: 1064nm 8-20hz
+ Laser Spot Detector, 190° Wide Angle, Passive Multiple-Target, 0.5 μm - 1.65 μm
Nomenclature: AMPI.mXR "Cygnus", Coherent Dual-Mode Terrestrial Identification Array
Uncooled Long-Wave Infrared Sensor, 10 Megapixel, 20x Power-Telephoto Zoom, 30° Field-of-View
Solid-State X-Band AESA Radar, 200W Peak Power, 30 Hz Update Speed
All-Weather Sensor-Fused High-Altitude Seeker, Compact/Lightweight
offers high-resolution blended thermal and image
intensified night vision that provides crisp imagery through total
darkness, fog, smoke, dust, and many other obscurants.
blended channels to optimize target detection and recognition. I2 penetrates glass and provides IFF while thermal circumvents camouflage and
provides rapid target detection. High-resolution blended thermal/image-intensified light night weapon sight provides
crisp imagery in complete darkness and under foggy, smoky, or dusty conditions.
Nomenclature: "Kanaloa" TIMU (Timing & Inertial Measurement Unit)
Classification: GPS-Independent Inertial Navigation System
Components: Ring-Laser Gyroscope, Master Clock, Accelerometers/Magnetometers
Operation: 6-Axis Real-Time Measurement of Altitude/Distance/Heading/Movement
Design Spec: EMP-Hardened, Low Power Consumption, Compact Unit
https://www.hensoldt.net/products/radar ... ive-radar/
Passive Air-Defense Radar Listening Posts
Developed from a requirement for an inertial guidance system that is accurate at all altitudes and velocities to within a meter of GPS referenced positioning but without a need to reference GPS satellites or any communications interface to self-locate, the TM3 Nav Suite represents a massive advancement in inertial guidance. TM3 only periodically references GPS as a redundant calibration check, however the system is considered 99.5% accurate even during extreme movements or at very high speeds. In the Timing & Inertial Measurement Unit, (TIMU) dozens of tiny blown, ground and polished quartz "mushroom" and "wineglass" gyroscopic sensors are coupled to a powerful master clock and also linked to dual acceleratometers and magnetometers. The TIMU measures six axes of rotation, synchronized in real time and sensor fused to provide highly accurate tracking of time, altitude, distance and course. When coupled to an encrypted communication network such as SANMEN, the TIMU enables precise turn-by-turn directions to be downloaded as changes to mission profiles are uplinked by command and permits Blue Force Tracking to maintain an accurate fix on the position of the aircraft with a very low degree of error and without reliance on satellite positioning systems.
Synchronized and GPS/Blue Force Tracking-updated maps can be displayed with updated targeting information shared by all users of the SANMEN network, with mission paths laid out pre-mission or updated while the aircraft is in flight. "Crowdsourcing" intelligence in this way allows the central command structure the clearest picture of what is happening on rapidly evolving battlespaces and allows impromptu changes in mission routes to be distributed to assets throughout the battlespace which, with the help of their onboard navigation suites, change course when new targets are identified and navigate to waypoints, targets or destinations without the need to rely on a satellite connection for positioning information. A ring-laser gyroscope provides a secondary, redundant but highly accurate reference which is used for constant check and recalibration of the TIMU system. The extremely accurate information generated by the Tetsudo Mk. II guidance system is capable of delivering the vessel on target with pinpoint accuracy, in most cases inside three meters of the predesignated point, all without any reference to global positioning satellites whatsoever and only using onboard communications receivers for mid-course correction.