Reticles: Front or Rear Decisions
Introduction and History There are two planes of focus in the common rifle
scope (lensmatic), for the placement of the reticle. They are commonly called
the front focal plane and rear focal plane models. One exception is the Shepherd
scope, which has both. Artillery rangefinders have always had at least
two reticular focal planes, and sometimes three or four. Optical collimating
scopes have always had two focal plane reticles, or aiming points.
Interferometers need more than one focal plane aiming point to function.
Why front or rear focal plane placement? Question: What are focal planes
and what is the difference between putting the reticle in the front or rear
focal
plane? Answer: Only in a variable power scope is the reticle placement a major
problem. In the rear focal plane, or behind the power changing lens system
(erector tube), was the first solution that occurred to optical engineers,
and most American scopes are still being built that way. Unfortunately, this
apparently ideal solution has a very serious flaw.
Any tolerance change in the centration of the lens system and their spherical/longitudinal
movement with the power change, will shift the point of impact.
A variation of one thousandth of an inch will move the zero point approximately
one inch at 100 yards. Since the mechanical parts that hold the power
changing lens system slide inside each other, (some allowances are made for
temperature changes, manufacturing tolerances and wear), there must be
some movement made to accommodate this. Consequently this lateral and vertical
movement will often shift zero by as much as several inches as power
is changed.
A better solution is to place the reticle in the front focal plane, or ahead
of the power changing lens system. The movement of the erector system will,
optically, have no effect on the point of aim here. So why don’t all
scope manufacturers build them this way? The downside of this method is that
Americans typically do not like reticles that grow in size when the power
is turned up. There is no actual growth in the reticle size. As the magnification
increases, so does the reticle along with the objects in the field of view.
A one inch dot reticle will still be one inch, at any power, be it low or
high. It
is only the appearance that is altered. If the power is turned from 2x to
4x, or doubled, the size of the objective image is doubled, and so is the
reticle
along with it.
Since the front focal plane reticle is a superior aiming device but aesthetically not very popular, there is only that problem to overcome.
That problem has been solved by U.S. Optics engineers in the form of creating
a series of front focal plane reticles that do not appear to change in
apparent size as the power is changed. These reticles all have the same effect
when sighting with them. U.S. Optics designs these reticles to not
only diminish the negative idea of apparent change, but uses that concept
to create an exclusively positive concept change. In other words, we use
the single image concept of a reticle magnified to an almost unusable thick,
heavy image at high power to create another entirely different and very
usable, highly magnified reticle, without the normal disadvantages. We call
this system of reticles our High-Low Imaging System, or High-Low Reticle.
It is a completely different picture at high power, thus usage is dual purpose
and increases the versatility of the scope tremendously.
With this system, the variable power scope no longer has any disadvantages,
and many decidedly great advantages over a fixed power scope.