Bushnell Equinox Z Digital Night Vision Monoculars

Bushnell Equinox Z Digital Night Vision Monoculars


The Bushnell Equinox Z Digital Night Vision Monoculars provide unparalleled viewing experiences in low-light conditions.


  • Adjustable IR brightness
  • High-performance glass objectives
  • Zoom capability and extremely long battery life
Free Shipping on this product
List Price
Your Price
In Stock

Shipping Information
Return Policy
Why Buy From Fondriest?


For some, darkness marks the end of an adventure. For others, there is the Equinox Z. Nothing reveals the unknowns of darkness like the Equinox Z line of night vision products. Whether used to track an animal across an open prairie or to explore the depths of the murkiest cave, Equinox Z provides an unparalleled viewing experience in low-light conditions.

Designed to afford the user outstanding optical clarity and a wide field of view, the Equinox Z line offers powerful infrared illumination and day or night viewing. With features such as Image Capture, Video Recording, Daytime Color and tripod-mounting compatibility, Equinox Z gives users the tools for success in any endeavor. Add to that the convenience of AA batteries and an extra-rugged, water-resistant housing, and the result is a digital night vision monocular that performs well no matter the situation.


  • 1-3x Zoom
  • Daytime color
  • Video out
  • AA batteries
  • Glass objective
  • Tripod mount
  • Carrying case
  • Up to 500ft viewing with infrared illuminator
Image Part # Product Description Price Stock Order
Bushnell Equinox Z Digital Night Vision Monoculars 260130 Equinox Z digital night vision monocular, 3 x 30mm
In Stock
Bushnell Equinox Z Digital Night Vision Monoculars 260140 Equinox Z digital night vision monocular, 4.5 x 40mm
In Stock
Bushnell Equinox Z Digital Night Vision Monoculars 260150 Equinox Z digital night vision monocular, 6 x 50mm
Usually ships in 1-2 weeks

Bushnell Equinox Z Digital Night Vision Monoculars Reviews

| Write a Review

Be the first to write a review

Related Products

In The News

White Bear Lake Stands Out In Study Of Twin Cities Lakes

Following water level declines in lakes around the Twin Cities area of Minnesota, scientists at the U.S. Geological Survey were interested in identifying the cause. What they found along with that was a large degree of variability between the lakes, based on geology, elevation and land use. That there was such variation isn’t too surprising, as Mother Nature is far from neat in laying things out. But the sheer size and scope of the study has a nice way of underscoring just how different individual lakes can be from one another even if they sit nearby. The effort, looking at 96 different lakes around Minneapolis and St. Paul, Minn., found wide variation in water levels over time. Some lakes gained in water levels while others nearby saw them decline.

Read More

West Antarctica Glaciers Melt At Pace Not Seen Before

Researchers with the University of California (UC), Irvine, and NASA have completed a pair of studies documenting the pace of glacier melt in West Antarctica. Their findings show that the melting there is occurring at a rate never before observed. The studies examined three neighboring glaciers that are melting and retreating at different rates. The Smith, Pope and Kohler glaciers flow into the Dotson and Crosson ice shelves in the Amundsen Sea embayment in West Antarctica, the part of the continent with the largest decline in ice. One, led by a UC Irvine researcher, looked at satellite records in its approach.

Read More

Figuring Out How Microplastics Move From Mussels To Fish

Microscopic beads and fabrics float in our waterways, get ingested by fish and other creatures, and impact the environment in lots of negative ways. But despite that knowledge, there is little we know about how these microplastics first enter aquatic food webs. In a pilot study, researchers at the University of Notre Dame are studying the dynamics of just how microscopic plastics are first transferred from filter feeders to fish. Their investigation is using asian clams and sculpins to pinpoint the interactions underway. The researchers originally wanted to use round gobies, a prolific invasive fish in Lake Erie.

Read More