Pulsed Power for
Defense & Security

Protect your vulnerable/sensitive sites from drone incursions

Drone intrusions now pose a direct threat to sensitive sites, critical infrastructure, and aerial operations. Often classified as leisure and entertainment devices, drones can easily be diverted for malevolent purposes: espionage, transport of illicit objects, disruption of air traffic, or terrorist actions.

To address these risks, ITOPP develops a a directed energy weapon to counter drone, based on high-power microwave (HPM) technology. 

 Anti-UAV mobile defence system based on high power microwave

The system generates a beam of high-powered microwaves in order to disturb or even destroy the electronics of the UAVs without munitions and without dependency on GNSS or communication systems.

• Defeating isolated drones and swarm of drones
• Non kinetic neutralization
• Immediate and controllable effect
• Lower cost per engagement
• Wide area coverage

This approach addresses evolving threats, including autonomous drones or those hardened against conventional jamming.

Mobile, Integrated, and Operationally Deployable System

ITOPP develops a turnkey, transportable system designed for constrained environments:

• High-power microwave effector mounted on a rotating turret
• Integrable on mobile platforms
• Battery-powered for deployment in isolated locations

Test Bench for Simulating the Direct and Indirect Effects of Lightning

Lightning qualification is a critical safety and certification challenge for modern aircraft and defence platforms.
ITOPP provides custom pulsed-power test systems that enable engineers to assess both direct and indirect lightning effects with industrial-grade robustness.

On average, an aircraft is struck by lightning every 1,500 flight hours. To reduce aircraft weight and improve performance, metallic fuselage structures are increasingly replaced by lightweight composite materials. This evolution reduces the effectiveness of the Faraday cage effect, making aircraft more vulnerable to lightning-induced phenomena and increasing the need for dedicated vulnerability assessments.

When an aircraft is struck, high-intensity currents flow through the structure. These currents can cause direct effects, such as mechanical damage to structural elements or perforation of the airframe, as well as indirect effects, including electromagnetic disturbances affecting onboard electronic systems.

Based on applicable standards and regulations—detailed in the associated datasheet—and on customer-defined performance objectives, ITOPP designs and manufactures custom pulsed-power test systems. These systems are developed to simulate both direct and indirect lightning effects, supporting qualification, validation, and vulnerability assessments of structures and onboard equipment in demanding operational environments.

Capabilities – Lightning Test Systems

ITOPP’s high-performance pulsed-power generators enable engineers to:

• Simulate direct lightning strikes on structures, ensuring mechanical and electrical resilience
• Reproduce indirect effects, including induced currents, voltage surges, and electromagnetic interference
• Assess the behaviour of materials, including metals and advanced composite structures

Whether for aircraft structure designers or developers of hardened electrical and electronic systems, ITOPP provides test solutions that enable detailed analysis of the effects of lightning-type discharges on materials and systems subject to stringent lightning requirements.

These systems can be used to assess a wide range of aircraft platforms, including fixed-wing aircraft, helicopters, and UAVs. They can also be deployed to evaluate lightning vulnerability in land-based vehicles and critical defence systems.