Night
vision technology consists of two major types:
light amplification (or intensification) and thermal (infrared).
Most consumer night vision products are
light amplifying devices. All ITT Night Vision products
use light-amplifying technology. This technology takes
the small amount of light that's in the surrounding area
(such as moonlight or starlight), and converts the light
energy (scientists call it photons) into electrical energy
(electrons).
These electrons pass through a thin disk
that"s about one centimeter in diameter and contains
more than 10 million channels. As the electrons go
through the channels, they strike the channel walls
and thousands more electrons are released. These multiplied
electrons then bounce off of a phosphor screen which
converts the electrons back into photons and lets
you see an impressive nighttime view even when it"s
really dark.
Differences in Night Vision Technology
Generation (Gen) 3 is the most sophisticated night vision
technology available. The photocathode is coated with
sensitive gallium arsenide, which allows for a more efficient
conversion of light to electrical energy at extremely
low levels of light.
Generation 3 provides the clearest, sharpest
night vision image available. The units have a higher-performing
image intensifier tube with a minimum 51 lp/mm resolution,
compared to the 45 lp/mm minimum of a standard Generation
3 unit. Line Pairs per Millimeter (lp/mm) are units used
to measure image intensifier resolution; the higher they
are, the clearer the image becomes.
Generation 2 marked the development of
a microchannel plate, which multiplies the number of electrons
by the thousands. This produces a clear image in nighttime
situations without the distortion of Gen 0 and Gen 1.
Generation 1 has problems with distortion
and short-lived intensifier tubes. It uses materials that
are better than Gen 0 to convert light to electrons. These
units were able to operate at lower light levels than
the Gen 0 and became known as "starlight scopes"
Imported night vision viewers usually use Gen 1 image
intensifiers even though they may be advertised as Gen
2.
Generation 0 technology depended on external
light to increase available light energy. After the light
was converted to electrons, electrical components focused
these electrons through a cone-shaped device (anode) and
accelerated them so they hit the phosphor screen with
greater energy, creating the visible image. Unfortunately,
accelerating the electrons in this manner caused distortion
in the image and decreased the tube"s life.
All Generation 3 products sold internationally
require an export license from the U.S. Department of
State, Office of Defense Trade Controls, in accordance
with International Traffic in Arms (ITAR), Title 22, Code
of Federal Regulation. Most Generation 2 products are
controlled by the U.S. Department of Commerce, Bureau
of Export Administration, Commodity List Number 6A002.
Performance Attributes
There are three important attributes for judging performance.
They are: sensitivity, signal and resolution. As the customer,
you need to know about these three characteristics to
determine the performance level of a night vision system.
Sensitivity, or photoresponse, is the
image tube's ability to detect available light. It is
usually measured in "uA/lm" or microamperes
per lumen. ITT 's advanced technology and processing enable
us to give our customers products with outstanding sensitivity.
That is why many of our products do not come with standard
IR illuminators. With many applications, illuminators
are not necessary. Our competitors put IR illuminators
on their products to obtain acceptable performance under
low light conditions.
Signal plays a key role in night vision
performance. ITT 's microchannel plate technology is unsurpassed
in its ability to transfer a strong signal from input
to output. Just as high-end stereo equipment gives you
quality sound, ITT Night Vision gives you a quality output
image without "noise".
Resolution is the third major consideration
when purchasing night vision. This is the ability to resolve
detail in your image. High-quality optics and the latest
processing methods give ITT Night Vision the edge. Some
of our competitors put magnified optics in their systems
to give the illusion that they have high resolving systems.
In the trade-off, field of view is sacrificed. ITT gives
the option of higher magnification only so you can have
it if you want it. The system does not need higher magnification
to function effectively. Our technology offers a uniquely
formulated phosphor screen to create the highest contrasting
images, thereby generating the highest resolution products
available to the consumer.
ITT Night Vision provides you with the
best night vision performance on the market. That is because
we have highly trained engineers dedicated to continuous
process improvement in state-of-the-art development of
night vision image tubes and systems. We are the world"s
leader for Gen 3 image intensified (amplified) night vision
products for the U.S. military. Ensuring that our military
remains the best in the world requires excellence in product
and technology development, and we pass that excellence
on to all our customers. You get the latest technology
and the assurance that our products meet or exceed all
others on the market.
Technical Characteristics of Night
Vision
Using intensified night vision is different from using
regular binoculars and/or your own eyes. Below are some
of the aspects of night vision that you should be aware
of when you are using an image intensified night vision
system.
Textures, Light and Dark
Objects that appear light during the day but have a dull
surface may appear darker through the night vision unit
than objects that are dark during the day but have a highly
reflective surface. For example, a shiny dark colored
jacket may appear brighter than a light colored jacket
with a dull surface.
Depth Perception
Night vision does not present normal depth perception.
Fog and Rain
Night vision is very responsive to reflective ambient
light; therefore, the light reflecting off of fog or heavy
rain causes much more light to go toward the night vision
unit and may degrade its performance.
Honeycomb*
This is a faint hexagonal pattern, which is the result
of the manufacturing process.
Spots*
A few black spots throughout the image area also are inherent
characteristics of all night vision technology. These
spots will remain constant and should not increase in
size or number.
* Do not be concerned if you see
this feature. It is an inherent characteristic found in
light amplification night vision systems that incorporate
a microchannel plate in the intensifer.
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