Bear Hunting Essentials: The Rangefinder

Bear Hunting Essentials: The Rangefinder

A laser rangefinder is a significant investment for a hunter, costing several hundred dollars depending on the brand and the capabilities of a specific model. But how do you know which unit you need? Are you buying more rangefinding power and less precision than you require? Which attributes are the most important when selecting a rangefinder? And how do they differ between archery and rifle modes?

Bear hunting adds even more variables. Bruins often live in thick cover. Their dark fur soaks up light, and lesser rangefinders are often challenged to read a black bear in low light.

The truth is rangefinders are as variable as any traditional optic, but because electronics introduce a whole other level of capability, here are some qualities to consider if you’re in the market for a laser rangefinder.


There’s an arms race of sorts to extend the demonstrated range of units. Many new models have advertised ranges of 2,500, 3,000, and even out to 3,500 yards. Typically, the advertised range of a unit is the maximum distance at which the rangefinder will “read” targets, but manufacturers fail to note that these ranges are based on highly reflective targets. Think a highway sign or the metal roof of a distant barn. But hunters want their rangefinders to read less reflective targets, such as the hair of a distant bear or the confusion of leaves or tree limbs. Or, often even more critically, a bear behind a screen of leaves. Unfortunately, many of these rangefinders won’t range a deer beyond 1,000-1,200 yards.

One way to test the sensitivity of a laser rangefinder is to range bear-sized objects clad in various surfaces at a wide variety of distances. Try ranging a moving car, or a bear-sized bush. If you can get consistently accurate readings on the full range of targets, that’s a model worth considering. If you’re in the market for a rangefinder that must handle archery hunting, see how close it will range. It should return results at a precision of less than a yard inside 20 yards.

Next, range targets both in full sun and obscured by shade. One critical operational difference between rangefinders is the sensitivity of the processor and the quality of optical coatings that filter the laser signal from the ambient noise created by infrared radiation of sunlight. In order to test the real-world capabilities of a rangefinder, say at a retail establishment, ask to take a test unit outdoors and range various targets in all light conditions and distances.


One reason rangefinders fail to detect targets—or more accurately, fail to identify a target surrounded by visual clutter—is the imprecision of the laser beam itself.

Think of the beam as a cone of light, almost like the visible light emitted by a flashlight. While lasers have a much more tightly focused beam than a flashlight, the principle is the same: a more focused cone can pinpoint individual targets more capably than a wider, more diffuse beam can.

This is called the “beam divergence” of the laser. The smaller this divergence, the smaller the target the unit can range precisely. Leica’s laser rangefinders, for example, have one of the smallest beam divergences on the market, measuring just 1.2 milliradians wide by a half a milliradian tall. The horizontally oriented rectangular shape of the beam is intentional; it’s designed to better read targets that are wider than they are tall – like a broadside deer, for example.

Other brands may have wider beam divergences that are circular or square, but the horizontal rectangle allows a hunter a greater chance to put the laser beam on a bear-shaped target, and not elsewhere, such as a rock in the foreground or a tree in the background.

Targeting Options

Most hunting rangefinders are calibrated to find the second-priority image in any given targeting situation. What does that mean? It’s easiest to explain using the example of golf rangefinders, which use a first-priority image system.

Leica rangefinder mounted to tripod

“Leica uses first-target mode for most of our golf rangefinders,” says Julian Burczyk, product manager for Leica’s rangefinding division. “That’s because the flag [at the hole] is usually the first, but not the most reflective, target that users see. We use second-target logic for all of Leica’s hunting products; think of a wild boar hiding in the woods and the small trees or limbs that are in the line of sight. You don’t want to know the distance of the intermediate limbs; you want to know the distance of the second target, which is the wild boar. That’s why hunting units are second-priority targeting systems.”

Most rangefinders don’t detail their targeting priorities on the box, so it’s useful to check with a store clerk or research the product online. But, generally speaking, hunters will not want to simply repurpose a rangefinder designed for golfing. Some higher-end rangefinders allow users to select the ranging priority to fit their specific needs.


One of the most influential determinants in rangefinder selection, you can find units for under $100 and others for over $1,000. So what are you actually buying? Electronics are only a relatively small part of the cost. Most laser rangefinders use Class 1 modules, which are eye-safe and have enough power to handle most hunting scenarios. Processor speeds—or the amount of time between when you push the ranging button and when you get a readout on the digital display—represent a wide degree of variability. It’s the processor speed and software that will help define the sensitivity of a unit, or whether it is capable of ranging mainly reflective targets or targets with a high degree of variation. Another difference from one brand to the next is the optics that allow you to see the image in the first place.

“Leica was and is still known for perfect optical quality,” says Burczyk. “The brilliance of the glass we use in combination with a wide field of view, high light transmission, and reliable laser performance are the main differentiators of our units. So are our optical coatings, which help to define the difference between a laser return signal and the noise of infrared light that enters the optics and can confuse a less sophisticated processor.”

Digital Display

In addition to the glass inside the unit, the type and performance of the display is also a point of differentiation between brands. Do units display range and other information in liquid crystal display (LCD) or light-emitting display (LED)?

rifle hunter holding phone and Leica rangefinder

“We have done a lot of research modifying the optical coatings that will create good display visibility in all different light conditions,” says Burczyk. “Leica uses a high-quality LED display, which automatically adjusts the brightness, correcting for ambient light conditions.”

Eye relief, field of view, and the ergonomics of the unit—not only how it fits your hand but also your face—are important considerations. Lastly, consider the style and design of the reticle, or the specific aiming point that you use to range objects.

“Many rangefinders use a cross reticle (similar to a crosshair in a riflescope), but we prefer a square reticle,” says Burczyk, “because it makes framing the target easier for the user. We also have focused our laser’s signature to fill the complete inner portion of our aiming circle. So the user not only has a small single spot to concentrate on for aiming, but that spot conforms to our precisely defined lazing zone.”

Angle-Compensating Features

Many rangefinders are built to display line-of-sight distances but also angle-compensating distances, the difference being that when it comes to ballistics, a bullet (or arrow) can be closer depending on the steepness of the angle from the gun or bow. Many rangefinders use what’s called the “Rifleman’s Rule,” or simple Pythagorean geometry, to determine the angle-adjusted difference. But it’s worth paying more for angle compensation that’s based on ballistics data, which has a much higher degree of precision and can be matched to the specific weight and velocity of your projectile, which are loaded into the on-board processor.

Finally, consider a unit’s close and far angle-compensation capabilities. The best feature archery-friendly ranging and angle-compensation from 10 yards to 100 yards in simple archery mode, but rifle-shooter optimization from 100 to out past 1,000 yards.

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