Riton Optics 3 Tactix PRD3 2 MOA Red Dot Sight
The Riton Optics 3 Tactix PRD3 is a dedicated 2 MOA red dot sight engineered for accelerated target acquisition and precise aimpoint projection across diverse firearm platforms. Its robust design prioritizes operational reliability, establishing it as a primary optic solution for competitive applications and personal defense scenarios.
Key Features
2 MOA Dot Reticle
The integrated 2 MOA reticle provides a critical balance between precision for extended engagement distances and rapid target indexing for close-quarters operations. This reticle dimension facilitates effective application on both precision rifle systems and compact concealed carry pistols.
Robust Chassis Construction
Constructed from aerospace-grade aluminum, the 3 Tactix PRD3 chassis is engineered for sustained operational integrity under strenuous conditions. Its material composition and structural design ensure consistent resistance to cyclic recoil, kinetic impact, and environmental ingress, thereby enhancing its reliability across training and field deployments.
Optimized Power Management
The power management system is optimized for extended operational runtime, significantly mitigating the requirement for frequent battery changes during critical operational periods.
Platform Versatility
This optic solution demonstrates high adaptability across multiple firearm platforms. It delivers a tangible advantage to users of carbines, shotguns, and personal defense firearms through an optimized sight picture and accelerated follow-up shot capability.
Clarity and Light Transmission
The lens system is meticulously engineered to ensure high light transmission and a clear, uncompromised target view. This optical clarity facilitates rapid and confident aimpoint placement across a spectrum of ambient lighting conditions.
Technical Specifications
- Reticle: 2 MOA Red Dot
- Construction Material: Aircraft-grade Aluminum
The Riton Optics 3 Tactix PRD3 consistently delivers verifiable performance, directly contributing to enhanced accuracy and heightened operational confidence for the end-user.
