- FN America conducted function testing of its MTL-30 30mm grenade launcher with a multi-function muzzle device under the U.S. Army Precision Grenadier System prototype program.
- The MTL-30 system is being developed to provide infantry units with improved precision engagement capability against targets in covered or complex environments.
FN America announced Monday that it has conducted function testing of its FN MTL-30 30mm Medium Tactical Grenade Launcher as part of ongoing development work under the U.S. Army’s Precision Grenadier System (PGS) Prototype Project Opportunity Notice (PPON) award.
The company said the recent testing was carried out in collaboration with Strategic Sciences and focused on evaluating the integration of a new multi-function muzzle device on the launcher platform of a futuristic grenade launcher.
The Precision Grenadier System effort aims to provide soldiers with a controllable weapon capable of engaging targets positioned behind cover or within complex battlefield environments.
According to FN America, the company worked with Strategic Sciences to conduct function testing of the MF30MD multi-function muzzle device integrated onto the MTL-30 launcher. The evaluation was intended to enhance system performance and demonstrate integration between components developed by partnering companies participating in the prototype effort.
“We’re excited to share continued progress in our development and testing of the FN MTL-30 30mm Medium Tactical Grenade Launcher, advancing capabilities for the U.S. Army’s Precision Grenadier System (PGS) Prototype Project Opportunity Notice (PPON) award,” FN America said in a statement announcing the milestone.
The company added that testing activities were designed to support development of a system focused on soldier usability and operational effectiveness while meeting program requirements established under the Army prototype initiative.
The FN MTL-30 is a semi-automatic, medium-velocity 30 mm grenade launcher designed to provide increased precision and lethality compared with legacy squad-level grenade systems. As described by FN America, the launcher is intended to complement modern infantry operations by enabling engagements against counter-defilade targets and emerging threat sets.
“Our development efforts continue to be data-driven, soldier-informed, and focused on delivering a controllable, capable system for future warfighters,” the company said, describing ongoing refinement of both the launcher and its associated ammunition family.
Under the U.S. Army’s PPON award, FN America was selected to further develop its Precision Grenadier System prototype, including the MTL-30 launcher and accompanying ammunition. The company said the $2 million award supports maturation of the technology and advances the system toward potential future modernization phases.
Technically, the MTL-30 occupies a category between traditional low-velocity grenade launchers and heavier automatic grenade systems. Medium-velocity 30 mm munitions are intended to provide improved range, accuracy, and terminal effects while maintaining portability suitable for infantry units operating on foot.
The MF30MD multi-function muzzle device tested during the recent evaluation is designed to influence weapon handling and performance characteristics. Function testing allows engineers to analyze recoil behavior, system compatibility, and operational reliability as part of iterative prototype development.
Precision grenade launchers are intended to give small units organic capability to engage targets concealed behind terrain features, structures, or obstacles without requiring heavier indirect fire assets. Semi-automatic operation allows faster follow-up shots while maintaining controllability for individual operators.
Prototype programs such as the PPON framework enable the Army to evaluate emerging technologies through industry development and testing before making decisions on future acquisition pathways. Industry-led experimentation allows systems to mature technically while incorporating soldier feedback during early development phases.

