Includes New Custom Fitted Ops Core Skull Crusher and an extra helmet mount and battery pack.
Out of stock
Manufacturer: L-3 Warrior Systems
Dimensions: 4.1”(L) x 3.2”(W) x 3.8”(H)
Weight: 2 lbs. w/ Battery Module
Finish: Gray, Corrosion Resistant
Power: Four (4) AA Batteries in Remote Module
Battery Life: 8.5 Hours of Fused (or Thermal) Operation followed by approximately 7.5 Hours of I2 Operation
Operating Temperature: -40° F to 120° F
Storage Temperature: -51° F to 160° F
Immersion: 1 Meter for 2 Hours
Generation: Gen3 U.S. L-3
Resolution: 64-72 lp/mm, Typical
Film: Thin Film
Gain: Adjustable/ Variable (Automatic Thermal)
FOV: 40 ° (25° Diagonal, Thermal)
Ocular Lens: EFL 30mm
Diopter: +2 to -2
Focus: 9.8” to Infinity (>7m to Infinity, Thermal)
Modes: I² Only, Thermal Only, I² /Thermal Fused (Overlay, Outline, Full)
Calibration: Auto/ Manual Thermal
Brightness: 10-³ – 20 fL (Adjustable) Thermal (LCD)
Polarity: White Hot/ Black Hot
Alignment: 45 Meters (Fused)
The AN/PSQ-20B Enhanced Night Vision Goggle is a helmet-mounted and/or hand-held device that combines the light amplification capability of image intensifier night vision devices with the heat-sensing capability of thermal imaging systems. It allows for observation, detection, and target identification under adverse conditions including light rain, light smoke, light snow, and low light to total darkness. As a fusion system, the ENVG allows the operator to adjust the viewed image from 100% night vision (I2) to 100% thermal, or a varying mix of the two. It amplifies available light and thermal signatures, and fuses them together to produce a clear viewed image. This cutting edge technology provides operators a tremendous advantage on the battlefield because he gets the best of both worlds, increasing the odds of mission success and survivability.
The ENVG provides better increased situation awareness capability due to the improved threat detection of the fusion technology. It allows the operator to see through more battlefield obscurants than any other device. On their own, standard L-3 Gen3 Infinity Auto-Gated I² tubes produce high quality images with superb resolution, providing excellent recognition capability. However, even these latest tubes are still dependent on available ambient lighting conditions. The more available light, the better the image will be (more detail and further distance resolution). But, battlefield conditions do not always allow for optimal ambient light. Cloudy nights with less moonlight, dense foliage, or internal/underground structure rooms can cancel out enough light that standard I² is defeated. Also, heavy rain, fog, snow, smoke, etc, will limit I² capabilities. This is where Thermal Imagers shine. Thermal identifies infrared energy (heat) and is not dependent on light at all. Thermal will see through most obscurants that would otherwise defeat I² and can create images in complete darkness. However, thermal imagers do not produce the same level of detail as I² tubes, limiting recognition capabilities.
The ENVG fuses these two technologies, providing the operator with all the benefits of I², while producing a thermal overlay. This gives the Warfighter substantially increased situational awareness because threats can be detected in virtually any environment. Bad guys that would normally be camofluaged in foliage, rock formations, etc can now be easily detected from a safe distance. Pitch black rooms or caves that would normally defeat I², causing the operator to use an IR illuminator (which can give away his position to anyone else using night vision) can now be easily negotiated with the thermal overlay. It is especially effective in urban operations.
The fused image has three modes: thermal overlay, thermal outline, and full thermal. The Overlay produces an otherwise standard I² image with orange thermal heat signatures over anything that is producing heat. This mode is extremely well-adapted to identifying threats quickly through obscurants. The outline mode produces a thin orange thermal outline around anything that is giving off heat. The rest of the image is standard I². This mode is especially useful when using an IR laser pointer because the operator can identify threats while still having recognition capability and can engage them with the laser. This is important because IR lasers are not seen through thermal. The full thermal mode overlays a complete thermal image over the I² image and is used when little to no ambient light is available, reducing the operator’s need to employ an illuminator.
The ENVG is powered by four standard AA batteries, housed in a separate battery module. This module can attach directly to the imager for use as a hand-held device, or attaches to the rear bracket of the proprietary helmet mount. The ENVG Helmet Mount features a front and back shroud, tethered by a power cable, with proprietary mounting arm. The Battery Housing Module mounts to the rear of the helmet and doubles as a counterweight to increase comfort while wearing the system on long operations. The power current is transferred using small contacts between the ENVG, Mounting Arm, Shroud, Rear Shroud, and Battery Housing. The system is robust and fits tight, ensuring a durable connection and no loss of power. The Mounting Arm features several adjustments that allow it to be configured for a wide range of users including fore/aft, vertical, and side-to-side. When in the stowed position, the single arm of the helmet mount can rotate on its axis to allow the ENVG to spin 90 degrees to either side. This places the goggle flat against the helmet shell, producing a smaller silhouette.