Power systems for defensePower as a Strategic Enabler for Defense
Applications in defense
The power layer
behind modern
defense systems
Energy systems are now a national-security issue
- Power is now a combat capability: ISR, autonomous systems, EW, drones, and missile defense are increasingly energy-constrained.
- Defense energy is becoming strategic infrastructure: Modern military readiness now depends on resilient, high-performance power systems.
- Supply-chain resilience is mission-critical: Geopolitical instability exposed the risks of dependence on non-trusted energy components.
- Trusted sourcing is becoming mandatory: NATO and allied defense ecosystems are prioritizing sovereign and partner-nation supply chains.
- Defense electrification is accelerating: Hybrid platforms, autonomous systems, and directed-energy applications are driving new power demands.
- Legacy power architectures are no longer sufficient: Conventional battery and diesel-based systems struggle to meet modern operational requirements.
Counter-UAV Power Systems
Rapid Power Delivery for High-Speed Interception
Ultra-fast power delivery for counter-UAS interceptor systems operating under extreme acceleration and maneuvering demands.
Skeleton's power systems provide instantaneous high-current bursts for rapid launch activation, thrust response, and stable operation during dynamic flight conditions.
Designed for compact and minimized-weight airbornes and ground-based interceptor platforms where conventional batteries cannot deliver the required pulse power fast enough.
Applications include also last-layer air defense systems, airborne interceptor platforms, ground-based drone defense, and rapid-response defense electronics.
Key benefits
- Millisecond-scale power response
- Instant high-current pulse delivery
- Supports rapid launch and maneuvering
- Compact lightweight integration
Turret motion power buffer
Thanks to supercapacitors, up to 60% of energy can be recovered —something that is not achievable with batteries.
During turret movement, the electric drive both draws high power from the vehicle batteries and regenerates energy back into the system during braking.
Peak currents can reach several hundred amperes during acceleration- these rapid current fluctuations create voltage drops and spikes in the vehicle power network, stressing batteries and sensitive electronics.
Turret motion generates frequent high-power pulses that batteries are not optimized to handle. Thanks to their unique ability to absorb and instantly release large amounts of energy, supercapacitors are the only technology capable of recovering up to ~60% of the braking energy back into the system. They deliver instant peak power for turret acceleration and absorb regenerative energy during deceleration, smoothing power fluctuations in the vehicle electrical system. Benefits include:
• Peak power support without oversizing batteries
• Protection of the vehicle power network
• Extremely high cycle lifetime under repeated load pulses
Main parameters
Turret motion power buffer
- Peak power: ~15 kW
- Pulse duration: ~1s
- High cycling frequency
GrapheneStart
High-Reliability Engine Starting for Tactical Vehicles
Supercapacitor-based GrapheneStart is an engine start module capable of providing cold-cranking power up to 2kA to start large diesel engines. While lead-acid is widely used for engine cranking, this application requires several kA of current which progressively also damages batteries.
GrapheneStart is capable of a million charge-discharge cycles and operates at close to full efficiency even under harsh environments.
Battle-tested in conflict zones - GrapheneStart ensures engine start in any situation.
GrapheneStart
12V and 24V
- Cold-cranking from -50 ºC to +75 ºC
- High reliability
- Non-flammable, even if hit by projectiles
- Impervious to short-circuiting
- Air freight allowed when module discharged
- Manufactured in Europe
Hybrid Power Systems for UGVs and Advanced Ground Platforms
Enabling peak power management for mobility and mission systems in hybrid architectures
Modern combat vehicles and unmanned ground systems are integrating increasingly power-intensive propulsion and mission architectures.
Our power systems deliver instant peak power and dynamic energy buffering for propulsion, onboard systems, and mission-critical payloads operating simultaneously.
Stabilizing vehicle power networks during acceleration, obstacle negotiation, regenerative braking, and high-demand mission operations enable higher mobility, improved efficiency, and increased operational reliability.
Power architectures for
hybrid combat vehicles
and UGVs
- Instant peak power for mobility and mission systems
- Power buffering for radar, EW, and counter-UAS platforms
- Regenerative energy capture and battery protection
- Silent mobility capability
- Ruggedized and manufactured in Europe
Power Stabilization for
Mobile Radar and EW Systems
Maintaining Reliable Operation
Under Extreme Dynamic Loads
Instant power buffering for radar, jammers, and defense electronics operating under extreme pulsed loads.
Skeleton's power systems stabilize platform voltage during rapid power spikes, helping prevent brownouts, system resets, and mission interruption.
Designed for highly dynamic defense environments where conventional batteries struggle with fast cycling and high peak currents, applications in mobile radar systems, electronic warfare platforms, counter-UAV systems, directed energy systems, and missile defense platforms.
Key benefits
- Microsecond response time
- Stabilizes dynamic bus voltage
- Handles extreme peak power loads
- No thermal derating under rapid cycling
- Reliable operation in harsh environments
- Compact integration for mobile platforms
Peak Shaving for Naval Power Systems
Stabilizing High-Power Pulsed Loads on Warships and Submarines
Instant power support for naval platforms operating under highly dynamic electrical loads.
Our power systems stabilize onboard power networks during rapid transient events from radar, propulsion, and mission-critical electronics, helping improve reliability and operational efficiency in harsh maritime environments.
Designed for continuous high-power cycling where conventional batteries face reliability and lifetime limitations.
Key benefits
- Instant response to pulsed loads
- Stabilizes onboard DC power systems
- Supports hybrid propulsion architectures
- Reliable under constant rapid cycling
- Resistant to shock, vibration, and salinity
- Compact integration for naval platforms
Defense sales
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