Night vision devices gather existing ambient light (starlight,
moonlight or infra-red light) through the front lens. This light, which is made
up of photons goes into a photocathode tube that changes the photons to
electrons. The electrons are then amplified to a much greater number through an
electrical and chemical process. The electrons are then hurled against a
phosphorus screen that changes the amplified electrons back into visible light
that you see through the eyepiece. The image will now be a clear green-hued
amplified re-creation of the scene you were observing.
1. Front Lens
4. High Voltage Power Supply
2. Photocathode
5. Phosphorus Screen
3. Microchannel plate
6. Eyepiece
FIRST, SECOND, THIRD AND FOURTH
GENERATION
A Night Vision Device can be either a 1st, 2nd, 3rd or 4th
generation unit. What this stands for is what type of light intensifier tube is
used for that particular device The light intensifier tube is the heart and soul
of an NVD.
1st generation is currently the most popular type of night
vision in the world. Utilizing the basic principles described earlier, a 1st
generation will amplify the existing light several thousand times letting you
clearly see in the dark. These units provide a bright and sharp image at a low
cost, which is perfect, whether you are boating, observing wildlife, or
providing security for your home. You may notice the following when you are
looking through a 1st gen unit
A slight high-pitched whine when the unit is on.
The image you see may be slightly blurry around the edges. This is known as
Geometric Distortion.
When you turn a 1st gen off it may glow green for some time.
These are inherent characteristics of a 1st gen and are normal.
2nd generation is primarily used by law enforcement or for
professional applications. This is because the cost of a 2nd gen unit is
approximately $500.00 to $1000.00 more then a 1st gen. The main difference
between a 1st and a 2nd generation unit is the addition of a micro-channel
plate, commonly referred to as a MCP. The MCP works as an electron amplifier and
is placed directly behind the photocathode. The MCP consists of millions of
short parallel glass tubes. When the electrons pass through these short tubes,
thousands more electrons are released. This extra process allows 2nd generation
units to amplify the light many more times then 1st generation giving you a
brighter and sharper image.
3rd
generation By adding a sensitive chemical, gallium arsenide to the
photocathode a brighter and sharper image was achieved over 2nd generation. An
ion barrier film was also added to increase tube life. Gen. 3 provides the user
with good to excellent low light performance.
4th
Generation / Gated Filmless tubes: 4th generation / Gated Filmless
technology represents the biggest technological breakthrough in image
intensification of the past 10 years. By removing the ion barrier film and
"Gating" the system Gen 4 demonstrates substantial increases in target detection
range and resolution, particularly at extremely low light levels.
The use of filmless technology and auto-gated power supply in 4th generation
image intensifiers result in:
Up to 100% improvement in photoresponse.
Superb performance in extremely low light level (better S/N and EBI)
At least triple high light level resolution (a minimum of 36 lp/mm compared
to 12 lp/mm)
With significant improvement in contrast level and in performance under all
light conditions, 4th generation represents the top of the line performance in
the night vision market. Note: The term 4th generation is used/accepted among
Night Vision manufactures to describe gated filmless tubes. However, this
designation is widely debated and is currently referred to as Filmless &
Gated image intensifiers by the US Military.
Gen 4 technology improves night operational
effectiveness for military users of night vision goggles and other night vision
devices. The filmless MCP provides a higher signal-to-noise ratio than Gen 3,
resulting in better image quality (less scintillation) under low-light
conditions. The gated power supply further improves image resolution under high
light conditions, and the reduced halo minimizes interference from bright light
sources. These improvements also substantially increase the detection range of
the systems.
Gen 3 Omni IV
Gen 4
% Improvement
Photoresponse (µA/Im)
1800
1800
-
Signal-to-Noise Ratio
21.0
25.0(ground)
20% Higher
26.0(air)
24% Higher
Resolution(lp/mm)
64
64
-
Halo(mm)
1.25
0.75
40% smaller
Reliability(hours)
10,000
10,000
-
RANGE IMPROVEMENT
Relative direction ranges
PVS-7 System
Overcast Starlight Conditions (-1x10E-5 tc)
Vehicle Size Target, 30% Contrast
Gen 2
SuperGen 2
Gen 3 OMNI I and II
Gen 3 OMNI III
Gen 3 OMNI IV
Gen IV
Detection Range (m)
170
270
240
290
360
430
% Improvement over Gen II
0%
60%
40%
70%
110%
153%
Gen IV technology is not currently available for
export.
XD-4 Image Intensifiers
The XD-4 is the top grade of the DEP Image Intensifiers. With
the introduction of the XD-4 technology a new European Standard for low light
imaging was born providing unprecedented performance in Night Vision
applications.
The XD-4 Image Intensifiers
perform extremely well in all environmental conditions. Its wide spectral
sensitivity range ensures that a perfect picture is obtained regardless of the
user's environment (foliage, on water, snow, desert, rocky and barren land) or
light conditions (down to heavily overcast starlight). The XD-4 Image
Intensifiers provide as well a superb image under very dynamic light conditions.
The basis for the unique performance of the XD-4 is the
technology used by DEP. This has resulted in greatly improved performance
parameters that are crucial for good observation, such as the Signal-to-Noise
Ratio (SNR), the Modulation Transfer Function (MTF) and Resolution under all
circumstances. Add to this the very long lifetime throughout its complete
luminance dynamic range and you will be convinced of its unique performance.
The performance parameters of the
XD-4 Image Intensifier are listed in the table below. Highlights of the XD-4
specification are the typical SNR of 24, the resolution of 64 lp/mm and over and
- very important - the high MTF at low and intermediate spatial frequencies. The
latter gives the image its sharpness and contrast.
It goes without saying that the XD-4 tubes can be supplied in
every common mechanical construction including inverting and non-inverting
fibre-optic output, which also means that users have the opportunity to upgrade
the performance of existing Night Vision Equipment via a drop-in XD-4 Image
Intensifier.
Technical specifications of XD-4 technology image
intensifiers:
Resolution
Minimal
Typical
Maximal
UNIT
Limiting resolution
Type I
55
58
lp/mm
Type II
60
64
lp/mm
Modulation Transfer Function:
2.5 lp/mm
92
%
7.5 lp/mm
80
%
15 lp/mm
58
%
25 lp/mm
38
%
30 lp/mm
30
%
Signal to Noise
Minimal
Typical
Maximal
UNIT
Signal to noise (@108µlx)
20
24
Other Technical Data
Minimal
Typical
Maximal
UNIT
Phosphor: P20*
MTTF (to S/N=12)
15.000
hrs
Gain at 2.10-5 lx
30.000/?
50.000/?
cd/m2/lx
Max. Output Brightness
2
17
cd/m2/lx
E.B.I.
0.15
0.25
µlx
Output uniformity at 2850K
2:01
3:01
Weight(18mm)
80
95
grams
Shock
500
g
Luminous sensitivity at 2850K
600
700
µA/lm
Radiant sensitivity at 800nm
50
60
mA/W
Radiant sensitivity at 850nm
40
50
mA/W
DEP Image
Intensifiers with XR-5 Technology
As a result of sustained and continuing product development,
DEP is proud to introduce the latest, innovative XR5 Image Intensifier with
unprecedented performance for any environment and any circumstance.
The XR5 Image Intensifier, successor to the well-known and
successful XD-4 Image Intensifier, reveals even more details of the night and
offers an eXtended Range (XR) capability thanks to its new technology.
Furthermore, the XR5 Image Intensifier
enables the user to see even more during a full 24-hour day/night operation.
This is done by the use of a fully integrated Auto-Gating unit, which controls
the image not only during day-night-day transitions but also during dynamic
lighting conditions such as those experienced, for example, in night operations
in urban areas. In practice, this means no blooming to hinder your mission but
dependable imagery throughout. In addition, the halo is the smallest on the
market.
The XR5 Image Intensifier from DEP represents the new European
standard for Night Vision and is available in a variety of inverting and
non-inverting 18 mm formats.
The new XR5 is your best choice to maintain
your combat effectiveness under all circumstances.
Technical
specifications of XR5 technology image intensifiers:
Resolution
Minimal
Typical
Maximal
UNIT
Limiting resolution
64
70
lp/mm
Modulation Transfer Function:
2.5 lp/mm
93
%
7.5 lp/mm
82
%
15 lp/mm
67
%
25 lp/mm
46
%
30 lp/mm
35
%
Signal to Noise
Minimal
Typical
Maximal
UNIT
Signal to noise (@108µlx)
25
28
Luminance dynamic range
Minimal
Typical
Maximal
UNIT
Auto-Gating and Automatic Brightness Control
1.0E-06
5.0E+04
lux
Other Technical Data
Minimal
Typical
Maximal
UNIT
Phosphor: P20*
Reliability
15.000
hrs
Gain at 2E-05 lux
30.000/?
50.000/?
cd/m2/lx
Max. Output Brightness
2
17
cd/m2
E.B.I.
0.25
µlx
Luminous sensitivity at 2850K
700
800
µA/lm
Radiant sensitivity at 800nm
65
78
mA/W
Radiant sensitivity at 850nm
50
65
mA/W
Input voltage
2
3.7
volt
Input current
35
mA
Output uniformity at 2850K
1.8:1
3:01
Weight (18mm)
80
95
g
Shock
500
g
INFRA-RED ILUMINATORS
All Starlight scopes need some
light to amplify. This means that if you were in complete darkness you could not
see. Due to this we have a built in infra-red illuminator (IRI) on all of our
scopes. Basically what an IRI does is throw out a beam of infra-red light that
is near invisible to the naked eye but your NVD can see it. This allows you to
use your scope even in total darkness. The IRI works like a flashlight and the
distance you can see with it will be limited. We do use the most powerful
eye-safe illuminator on the market. This allows our IRI to extend out to 100
yards However, because of the power at a short distance the IRI may cover only
40-60% of the viewing area.
HOW FAR CAN YOU SEE
There are
many different variables that can effect the distance that you can see with a
Night Vision device. First, what are you trying to see? Are you looking for
another boat on the water or are you looking for a rabbit in the woods? The
larger the object the easier it is too see. Plus, are you trying to see details
(what we call recognition range) or are you just trying to see if something is
there or maybe you will just see movement but won't be able to 100% determine
who or what it is. This is called detection range. Second. Another variable is
lighting conditions. The more ambient light you have (starlight, moonlight,
infrared light) the better and further you will be able to see You can always
see further on a night where the moon and stars are out then if it is cloudy and
overcast. We typically state that you can tell the difference between a male and
a female or a dog and a deer at about 75 to 100 yards. However, if you were
looking across an open field and there was a half moon out you could see a barn
or a house 500 yards away. Remember, that the purpose of an NVD is to see in
the dark not necessarily a long ways like a binocular.
BLACK SPOTS ON THE SCREEN
As you look through a night vision
device you may notice black spots on the screen. A NVD is similar to a
television screen and attracts dust and dirt. Typically these spots can be
cleaned. However, this may also be a spot in the tube itself. This is normal.
Most tubes will have some spots in them. These black spots will not affect the
performance or reliability of the night vision device.
All Starlight scopes need some
light to amplify. This means that if you were in complete darkness you could not
see. Due to this we have a built in infra-red illuminator (IRI) on all of our
scopes. Basically what an IRI does is throw out a beam of infra-red light that
is near invisible to the naked eye but your NVD can see it. This allows you to
use your scope even in total darkness. The IRI works like a flashlight and the
distance you can see with it will be limited. We do use the most powerful
eye-safe illuminator on the market. This allows our IRI to extend out to 100
yards However, because of the power at a short distance the IRI may cover only
40-60% of the viewing area. 
There are
many different variables that can effect the distance that you can see with a
Night Vision device. First, what are you trying to see? Are you looking for
another boat on the water or are you looking for a rabbit in the woods? The
larger the object the easier it is too see. Plus, are you trying to see details
(what we call recognition range) or are you just trying to see if something is
there or maybe you will just see movement but won't be able to 100% determine
who or what it is. This is called detection range. Second. Another variable is
lighting conditions. The more ambient light you have (starlight, moonlight,
infrared light) the better and further you will be able to see You can always
see further on a night where the moon and stars are out then if it is cloudy and
overcast. We typically state that you can tell the difference between a male and
a female or a dog and a deer at about 75 to 100 yards. However, if you were
looking across an open field and there was a half moon out you could see a barn
or a house 500 yards away. 
As you look through a night vision
device you may notice black spots on the screen. A NVD is similar to a
television screen and attracts dust and dirt. Typically these spots can be
cleaned. However, this may also be a spot in the tube itself. This is normal.
Most tubes will have some spots in them. These black spots will not affect the
performance or reliability of the night vision device.