The Unity Tactical AXON remote switch is engineered for optimal control of weapon-mounted lights and lasers in demanding operational environments. Crafted with a rugged housing, the AXON provides a compact and reliable interface that enhances weapon handling and situational awareness. Designed through extensive feedback from professional end-users, this switch ensures intuitive operation even in dark, cold, or high-stress scenarios. It offers independent and synchronized firing options, allowing users to tailor their engagement tactics with ease. The standard model features two tactile buttons, one for lights and one for lasers, each capable of momentary or constant activation, with specific configurations supporting double-click functionality for lasers. The AXON's unique tactile differentiation between buttons minimizes confusion during rapid response situations, ensuring quick and accurate device control. This remote switch mounts directly to M1913 Picatinny rails or M-LOK systems using an optional mounting kit, offering versatile installation options. The 7-inch cable length provides flexibility in positioning the switch for optimal accessibility. Whether used with issued equipment or custom setups, the AXON enhances operational effectiveness by providing seamless, reliable control over tactical illumination and laser targeting systems. Its durable construction and thoughtful design make it an invaluable accessory for professional operators seeking precision and dependability in critical moments.
Features:
- Compact and rugged housing designed for military and law enforcement use
- Independent and synchronized firing modes for lights and lasers
- Tactile differentiation between buttons to prevent operation errors in stressful situations
- Switch features momentary and constant activation options, including double-click laser control
- Mounts directly to M1913 Picatinny rails or M-LOK systems with optional mounting kit
- Standard 7-inch cable length allows flexible positioning
- Designed with feedback from professional end-users for optimal operational performance
