Methodology
Critical requirements
Close collaboration with operators
Immediate iteration loops
Distributed mass
Streamlined and decentralized manufacturing
Low logistics burden
Operational velocity
Speed of training and fielding
Zero compromise of safety
Capabilities
Platform agnostic
Loitering munitions
Smart bombs and smart mines
Autonomous plug-and-play
Operates as a stand-alone subsystem
Autonomy-geared build
Enables novel tactics
Top-attack against armor
Engage above radio horizon & concealed targets
Tactical characteristics
Extended effect precision anti-armor penetration with significant after-armor destructive effect and secondary radial steel fragmentation
Defeats common countermeasures (slat armor, cages, grates etc.) and concealment (light cover, chain-link, nets etc.)
Does not trigger Explosive Reactive Armor and Active Protection Systems
RHA penetration: > 85 mm
Optimal standoff: 0.7 - 10 m
External size: 80 x 140 mm
Weight: 1300 g
RHA penetration: > 100 mm
Optimal standoff: 1 - 15 m
External size: 90 x 140 mm
Weight: 1700 g
RHA penetration: > 150 mm
Optimal standoff: 1 - 20 m
External size: 110 x 160 mm
Weight: 2300 g
RHA penetration: > 170 mm
Optimal standoff: 1 - 30 m
External size: 120 x 160 mm
Weight: 2800 g
Mount: NATO rail (optional rail clamp) or threaded hard-point interfaces (under fuselage or inside payload compartment)
Assembly: Zero tool, deployed in few minutes
Fuzing: embedded with EMD series fuze (see details below)
Energetics note: Currently the warhead is user-filled and primed (with expedient or semi-industrial charge filling hardware available)
Fuze with Electro-mechanical Safety and Arming Device
Out-of-line interrupted firetrain for maximum operator safet, STANAG and MIL-STD compliant design
Multiple safety pin action configurations possible (side/rear, horizontal/vertical) depending on requirements
Tactical Characteristics
Compatible with low voltage bridgewire type initiators (ЕДП-р, ЕДП, M6 etc.) up to 8mm in diameter
Electrically isolated fireset charging in ~1sec
Safe firing energy discharge function (~5 sec)
Main initiation: impact (embedded IMU), proximity (optional add-on LiDAR)
C2 initiation: logic command (e.g. autonomous or operators command)
Technical Specification
Embedded 72-MHz CPU with input-to-output system latency 1ms
C2 integration: up to 4 PWM inputs/outputs, simplex or duplex UART, I2C
Dedicated "Fault" output signal
DC Supply Voltage: 4.5 - 7V from platform or via optional embedded battery
Applications
Anti-armor
Anti-material
Anti-fortification
