The Burris Optics BTH 35 V2 Thermal Hand-Held Scope offers advanced thermal imaging capabilities in a compact and lightweight design. Measuring approximately 7.5 inches in length and weighing just 17.1 ounces, this handheld device is ideal for outdoor enthusiasts, hunters, and security professionals seeking reliable thermal detection on the go. Its sleek black finish enhances durability and ease of handling, making it suitable for a variety of tactical and outdoor applications. The scope features a 35mm objective lens that captures thermal signatures with clarity, and a digital zoom range of 1x to 4x allows for detailed observation at varying distances. The magnification capability spans from 2.3X to 9.2X, providing versatile viewing options for different scenarios. The device's digital adjustments ensure precise control over image quality, while the absence of an illuminated reticle simplifies operation in different lighting conditions. This model includes five distinct color palettes, enabling users to customize thermal views based on environmental requirements or personal preference, enhancing visibility and target identification. The Burris Thermal Hand-Held Scope is designed with durability and ease of use in mind, making it a valuable tool for night surveillance, search and rescue missions, or wildlife observation. Its robust construction and intuitive controls ensure reliable performance in demanding conditions, providing users with a powerful thermal imaging experience in a portable format.
Features:
- Five color palette options for customizable thermal imaging views
- Stadiametric ranging for distance estimation
- Digital zoom from 1x to 4x for detailed observation
- Magnification range from 2.3X to 9.2X for versatile viewing
- Compact and lightweight design for easy handheld operation
- Durable black finish suitable for outdoor and tactical use
- 35mm objective lens for high-quality thermal detection
- Digital adjustments for precise control over image quality
- No illuminated reticle for simplified operation in various lighting conditions
