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Russian Molniya-2 Drone Able To Evade Ukrainian Counter-Drone Defenses
Vikram Mittal · 2026-04-27 · via Forbes - Aerospace & Defense
Russian soldiers launch a Molniya-2 drone

Image captured from video posted on Telegram by the Russian Ministry of Defense on April 14, 2026. The video shows a team of soldiers preparing a Molniya-2 to target Ukrainian positions in the Kharkiv region.

Social Media Capture

Drones and counter-drone systems have played a central role on the Russia-Ukraine battlefield. Currently, Russia is increasing its use of drones due to constraints on artillery, which has traditionally been the core component of its operations. Meanwhile, Ukrainian counter-drone defenses have expanded and become increasingly effective, in part from the widespread use of interceptor drones. In response, Russia has ramped up its production and use of the Molniya-2 drone. Alongside its low cost, the system incorporates a number of simple, low-technology features that allow it to operate more effectively against these defenses.

The Molniya-2 Drone

The Molniya-2 drone is a Russian fixed-wing unmanned system designed as a low-cost, mass-producible platform for strike and reconnaissance missions. Developed by Atlant Aero, it is built from inexpensive materials such as foam, plywood, plastic, and light composites, with reports indicating a per-unit cost as low as $300. The drone has a wingspan of 1.5 meters and payload capacity of 5 kg. It is powered by electric motors, with a maximum speed of about 120 km/h, an endurance of roughly 40 minutes, and a range of between 40 and 60 km depending on configuration. Early versions used a single motor and FPV-style cameras for terminal guidance, while newer variants introduced twin motors, a redesigned fuselage, and upgraded avionics to improve performance and payload flexibility.

The Molniya-2 is designed for decentralized assembly and rapid deployment near the front line. In its disassembled state, the drone fits into backpacks for easy transport to the launch site. Once there, a three-person launch team assembles the airframe, attaches the wings, installs the propulsion and control systems, and fits the payload. They typically launch the drone using a pneumatic catapult, then hand off control to an operator using FPV-style inputs. The system is built for mass employment, enabling teams to launch large numbers of drones in a short period of time.

Image captured from video posted on Telegram by the Russian Ministry of Defense on April 9, 2026. The video shows a Molniya-2 drone being launched to attack Ukrainian positions in the Sumy region.

Social Media Capture

Since its introduction in 2024, the Molniya platform has evolved into several variants supporting different mission sets. The standard strike variant functions as a one-way attack drone, carrying warheads such as shaped charges, anti-tank mines, and incendiary payloads. The Molniya-2R reconnaissance variant replaces the warhead with stabilized optical sensors and onboard computing for surveillance and target identification. Another adaptation includes a configuration designed to carry and release smaller drones closer to the target area, extending their effective range. These variants are now regularly observed on the battlefield, with usage increasing significantly in recent months.

The Molniya-2 Drone Against Ukrainian Non-Kinetic EW Defenses

Ukraine employs a layered counter-drone defense that combines kinetic systems, which physically destroy drones, and non-kinetic systems, which disrupt or disable them electronically. Non-kinetic measures rely heavily on electronic warfare to break the link between a drone and its operator. These drones are typically controlled over specific radio frequency bands, with the signal weakening as it travels from the controller to the aircraft. To jam this link, electronic warfare systems transmit in the same frequency band and deliver a stronger signal at the drone’s receiver, overwhelming the original control signal. When effective, this prevents the drone from receiving commands, disrupting its flight or forcing it into a failsafe mode.

While some Molniya-2 variants use fiber-optic cables to transmit control signals, effectively making them resistant to jamming, this approach is more expensive and reduces payload capacity. As a result, Russia has reportedly adopted a simpler method to limit the effectiveness of Ukrainian electronic warfare. Rather than operating on a single frequency, Molniya-2 drones are configured to use a range of frequency bands. Large numbers of drones are spread across the spectrum, so that only a small percentage operate on any one band. Russian operators also select frequencies that are not actively being jammed. Ukrainian electronic warfare systems emit strong, detectable signals when transmitting, making it clear which frequency bands are being targeted.

Image captured from video posted on Telegram by the Russian Ministry of Defense on March 26, 2026. The video shows a Molniya-2 drone pilot operating the drone after launch in the Kherson region.

Social Media Capture

This creates a scaling challenge for Ukrainian defenses. To counter drones operating across many frequencies, jamming systems must cover a broader portion of the spectrum. As jamming power is spread across more bands, signal strength in any one band decreases, reducing effective range. Maintaining effective coverage across a wide spectrum requires significantly more power and coordination.

The Molniya-2 Drone Against Ukrainian Kinetic Defenses

Ukraine also employs a mix of kinetic defenses at the tactical edge, combining ground-based systems with a growing reliance on interceptor drones. Systems such as the Gepard and Skynex are used against low-flying drones, supported by man-portable systems like the FIM-92 Stinger. Heavy machine guns provide local protection, while rifles with fragmenting rounds and shotguns are used at very short range. More recently, Ukraine has increasingly turned to FPV interceptor drones, such as those developed by the Wild Hornets collective, which pursue and destroy incoming drones in flight.

The Molniya-2 operates differently from the small quadcopter FPV and bomber drones that ground-based defenses are primarily designed to defeat. As a fixed-wing system, it cruises at roughly 90–120 km/h and operates from low altitudes up to several hundred meters, reducing the effectiveness of small-arms fire and limiting engagement windows. Its range allows it to be launched from deeper positions, and it is often used against lower-value or distributed targets that lack dedicated air defense coverage. In this environment, interceptor drones represent the primary threat.

Image captured from video posted on Telegram by the Russian Ministry of Defense on March 17, 2026. The video showed the drone feed from a Molniya-2 attack drone

Social Media Capture

A Russian milblogger reported that Molniya-2 operators have adopted a series of simple tactics to reduce the effectiveness of Ukrainian interceptor drones. Flights follow indirect routes to avoid known defensive positions, and routes are varied to prevent pattern detection. Flight altitude is adjusted throughout the mission, typically staying low before climbing near the target. In the terminal phase, operators introduce erratic, non-linear maneuvers to complicate interception. They also avoid flying over tree lines or populated areas where observers can report movement. Camouflage further reduces detection. The upper surfaces are painted to match the terrain, while the underside is kept light to blend with the sky. This reduces visibility from both above and below, making it harder for interceptor drones to detect and track the Molniya-2.

Ukraine’s Path Forward Against The Molniya-2 Drone

Ukraine will need to continue adapting both its electronic warfare and kinetic defenses to counter systems like the Molniya-2. A Ukrainian milblogger suggested that Ukraine should field capabilities similar to the Russian Shtora system, which disrupts the drone’s video feed, degrading the operator’s ability to guide it in the terminal phase. Ukraine is working to develop such systems, but they are difficult to implement, requiring line-of-sight access to the operator and sufficient power to interfere at range.

Kinetic defenses will also need to evolve, particularly through increased deployment of interceptor drones at the tactical level. Interceptor drones remain critical for this defense, though adjustments to tactics, sensors, and engagement profiles will likely be required to improve their effectiveness against the Molniya-2. Ground-based systems will similarly need to adapt to better address higher-speed, higher-altitude small drones.

In the battle for drone supremacy against counter-drone systems, both sides have largely focused on fielding increasingly advanced capabilities, often leveraging commercial technology. The Molniya-2 drone reflects a different approach. Instead of relying on technology, it uses a low-cost design paired with simple, adaptable tactics to work around Ukrainian defenses. This is well suited to a war of attrition, where cost, scale, and speed of adaptation matter as much as performance. As the war continues, Russia and Ukraine will both increasingly prioritize low-cost systems, rapid iteration, and practical tactics over more complex solutions.