The EO Tech Vudu Precision Rifle Scope model VDU1-6FFSR2G offers versatile magnification from 1x to 6x, making it suitable for a wide range of shooting scenarios. With a durable black finish, this scope features a 30mm main tube and a 24mm objective lens that provide a bright, clear image across various lighting conditions. The scope is designed for quick target acquisition and precise adjustments with 1/2 MOA windage and elevation controls, enabling shooters to fine-tune their aim with confidence. The illuminated SR-2 7.62 BDC MOA reticle in green enhances visibility in low light and variable conditions, ensuring accurate shot placement. Its compact 10.63-inch length and lightweight construction of just over 20 ounces make it a practical addition to any precision rifle setup, providing stability without adding undue weight. The scope also features a first focal plane reticle, allowing the reticle's size to scale with magnification for consistent holdovers and ranging at any zoom level. Additionally, the scope's auto power shut-off after two hours helps conserve battery life, while the push-button illumination control offers quick adjustments during critical moments. Built by EO Tech, the Vudu Scope combines rugged durability with precision engineering, making it an ideal choice for hunters, tactical shooters, and precision rifle enthusiasts seeking reliable performance in the field.

Features:

• First Focal Plane for consistent reticle size across magnifications

• Magnification range from 1x to 6x for versatile shooting applications

• 30mm main tube for increased light transmission and durability

• 24mm objective lens for bright, clear images

• 1/2 MOA adjustment for precise windage and elevation control

• Green SR-2 7.62 BDC MOA reticle for accurate ranging and shot placement

• Illuminated reticle enhances visibility in low light conditions

• Auto power shut-off after 2 hours to conserve battery life

• Push-button illumination control for quick adjustments

• Compact and lightweight design for easy handling and stability