EO SYSTEM PRODUCTS CATALOG Main office 542-7, Gajwa

Transcription

Main office
542-7, Gajwa-dong, Seo-gu, Incheon, Korea, 404-250
TEL. 82-32-290-1400 FAX. 82-32-290-1600
www.eosystem.com
EO SYSTEM PRODUCTS CATALOG
02
You can see whatever you want
We will serve our consumers and create a happy workplace by
welcoming change and maintaining our core values.
CONTENTS
04-05
06-07
08-09
10-11
12-13
14-15
16-17
18-19
20-21
22-23
24-25
26-27
28-31
32-33
34-35
COMPANY INTRODUCTION & HISTORY
THETIS (TACTICAL HAND-HELD ENHANCED THERMAL IMAGING SYSTEM)
MTWS (MINIMIZED THERMAL WEAPON SIGHT)
TWS-VM (THERMAL WEAPON SIGHT - VARIABLE MAGNIFICATION)
FICON (FIRE CONTORL UNIT)
NMS (NIGHT MONOCULAR SCOPE)
DNS (DAY & NIGHT SIGHT)
SMOD (STABILIZED MULTI-FUNCTION OBSERVING DEVICE)
TGPS (THERMAL GUNNER’S PRIMARY SIGHT)
TDV (THERMAL DRIVER’S VIEWER)
NDV (NIGHT DRIVER’S VIEWER)
PERISCOPE
NIGHT VISION TECHNOLOGY
THERMAL TECHNOLOGY
EPILOGUE
03
04
Company Introduction
Company History
Founded in 1979, EOST has become the leading supplier in Electro Optical Devices
to the Korean Armed Forces. From its inception, EOST has been making optical
components of the highest quality. By focusing our efforts on the research and
development of new technologies, EOST strives to stay on par with the most
recent technological developments in electro-optical systems. From simple optical
lenses to complete soldier systems, EOST continues to further the development of
current ventures while working to develop for the future.
2012
2011
2009
2008
2006
2004
2000
1998
1984
1979
Certification of Night Vision System by Defense Agency for Technology and
Quality of South Korea
Awarded as “Hidden Champion” that have strong market dominance globally
Announcement of Vision 2020
Developed Fire Control System for K11 Korean Next Generation Rifle
Awarded as “Excellent Corporation of Defence Industry in Exporting” by DAPA
ISO 14001 Approval
Awarded Grand Prize of Quality from the Ministry of Defense
Defense Quality Assurance
Changed the company name to EO SYSTEM Co., Ltd.
New Business Approach
ISO 9001 Approval
Initiated manufacturing portable Day & Night Vision Device
Day & Night Telescope
Nominated as an official Defense Product Supplier by the Ministry of Defense
Day & Night Periscope
Company Established(Optechs Korea Inc.)
Starting production of optic components
05
06
THETIS
07
Tactical Hand-held Enhanced
Thermal Imaging System
The THETIS is a multifunction thermal
imaging system that provides soldiers
with an advanced, light weight solution
for day and night reconnaissance,
surveillance and forward observation.
Each unit has multiple systems integrated
into a single easy to use package,
giving the soldier increased flexibility,
survivability and effectiveness.
This unit provides a weight and cost effective solution
that gives each user capabilities beyond those of
conventional thermal imaging cameras.
Each soldier is able to manually select
from different optics, depending on the
conditions of the battlefield.
Thermal optics allow for vision
through smoke, complete darkness
and other adverse environmental
conditions that would otherwise render
traditional night vision devices useless.
The THETIS is a military grade device that
places modern technologies and
capabilities directly in the field and into
the hands of those who need them most.
PROXIMITY SENSOR
MENU KEY
TOGGLE SWITCH
Day Time
NFOV
WFOV
The THETIS is a lightweight multifunction system that integrates the following subsystems.
-Uncooled Thermal Imaging Camera
-Daytime CMOS Camera
-Proximity sensor for power save
By integrating multiple systems into a single unit, the result was a lightweight solution that has a multitude of applications and possibilities. Low powered
uncooled thermal imaging technology is a more cost effective and reliable solution than conventional image intensified or cooled thermal imaging. Combining
the uncooled thermal optics with a Daytime CMOS camera, the resulting device is operationally flexible and provides around the clock detection and
observation capabilities. Each unit is also able to record videos and save information of targets. This is a lightweight, cost saving solution that is quickly
becoming the standard for modern military and paramilitary forces around the world.
TECHNICAL SPECIFICATIONS
Characteristics :
Forward Observers/ Security and Perimeter Defense/ Squad Commanders/ Scouting Missions/ Special Forces
Accessories :
-Rechargeable Battery
-Power cable
-Video cable
-Battery Charger and adaptor
-Tripod
-Cleaning towel
-Cleaning brush
-Operational manual
-Hard case
Daytime CMOS camera
FOV
8° x 6°
E-Zoom
X 2 (adjustable)
Thermal
Detector Type
Uncooled 640x480 VOx FPA
Dual FOV(Optical) Wide : 8.4° x 6.2°
Narrow : 5.56° x 4.25°
Narrowest : 4.0° x 3.0°
E-Zoom
Adjustable
Power Save
Proximity sensor
Standby mode
Video
Recording >1hr
Snap shot >10,000 photos
Video output
NTSC / PAL
Operating Time
Typically Greater than 6 hrs
Memory
1GB(adjustable)
SD Memory card / USB B Client
Mechanical Specifications
Type
Bi-ocular
Dimensions
220x262x103mm
Weight
<1.8 kg
Environmental Condition MIL-STD-810
Specifications are subject to change without notice.
Export of this and all defense products are regulated by
the Ministry of National Defense, Republic of Korea
08
MTWS
Minimized Thermal Weapon Sight
The New-Generation MTWS(Minimized
Thermal Weapon Sight) is lightweight
and compact, optimizing firing
capabilities for various kinds of rifles day
and night in all combat environments.
The MTWS is using lightweight uncooled thermal imaging and advanced Mil-Spec lenses that
make MTWS battleworthy for most any mission, operation or outdoor activity.
The MTWS is a military grade device that places modern technologies and capabilities
directly in the field and into the hands of those who need them most. MTWS-LR enables
commandos to acquire and engage targets at longer ranges with using 640x480 VOx state of
art thermal engines. Its thermal capability allows the sniper to detect static targets even
behind camouflage, battlefield obscurants, adverse weather and total darkness.
BATTERY SLOT
MENU KEY
VIDEO CABLE TERMINAL
The MTWS is a versatile, multipurpose sight
That is compatible on a broad range of weapons and
for a variety of operations.
-Designed Rugged enough for military use
-State of the art VOx Uncooled Thermal imager
-Variable applications
White Hot
Black Hot
Target Acquisition at Night
TECHNICAL SPECIFICATIONS
Characteristics :
MTWS-SR for assault rifles/ MTWS-MR for Crew served weapons/ MTWS-LR for Snipers/ Quick start-up(<3s)/
Compact, light weight, convenient/ Mil-Spec Lens Assembly/ Available in several standard reticle patterns/
Rugged, full-metal, extra durable body
Accessories :
-Commercial Battery
-External Power cable
-Video-out cable
-Cleaning brush
-Alcohol tube
-Operational manual
-Hard case
MTWS-SR
Thermal channel
FOV
E-Zoom
Weight
MTWS-MR
Thermal channel
FOV
E-Zoom
Weight
MTWS-LR
Thermal channel
FOV
E-Zoom
Weight
Power
Battery Type
Power Consumption
Sensor 320x240 VOx FPA
11.4° x 8.6°
X 2 (adjustable)
<830g
7.6° x 5.7°
X 2 (adjustable)
<900g
7.5° x 5.6°
X 2 (adjustable)
<900g
Commercial 4AA(Li-ion)
>6 hrs
Features
Video Output
Adjustments
Start-Up
Mount
NTSC(PAL optional)
Polarity, Zoom
<3 sec
Standard Picatinny Rail
Export of this and all defense products are regulated by
the Ministry of National Defense, Republic of Korea
09
10
TWS-VM
11
Thermal Weapon Sight Variable Magnification
TWS-VM is EOST’s answer to the target acquisition
and engagement needs of the modern soldier. This
uncooled thermal imaging system has been to
specifically designed to increase the effectiveness of
soldiers in medium and long range engagements,
while providing them the situational awareness and
operational flexibility that they require.
TWS-VM uses lightweight uncooled thermal imaging
and advanced optics provide soldiers a one-stop
solution for reconnaissance, patrol and engagement,
regardless of light conditions or battlefield conditions.
The sight’s 3x optical magnification allows easy
target acquisition while the 6x optical step-zoom
provides precise and accurate aiming for engagement.
The unit can also be used “stand alone” as a handheld
observation device and in conjunction with recording
devices to capture images and videos via a video
output port.
SPECIFICATIONS
Optical
System Magnification :
3 X (E-Zoom : 6 X / 12 X),
6 X (E-Zoom : 12 X / 24 X)
Range Focus : 1m to infinity
Field of View : 3 X (10°x8°) / 6 X (5°x4°)
MRTD : 0.15°[email protected]/mrad
F Number : 3 X (F/1.0) / 6 X (F/1.3)
Eye Relief : >25mm
Diopter Focus : +2 to -4 diopters
Mechanical
Cooling Type : Uncooled
Operating Temperature : -32°C ~ +43°C
Storage Temperature : -40°C ~ +63°C
Dimension : 361x125x100 (mm)
Environmental Condition :
MIL-STD-810F, MIL-STD-461E
Mounting Bracket : Standard Picatinny Rail
(MIL-STD-1913)
REFERENCE & FEATURES
Electrical
Detector type : Uncooled microbolometer
Array Size : 320 x 240
Wavelength : 8-12 um
Power
- External Power : 3.3 to 5.5 Volt DC
- Battery (VDC) : 4.1 0.3 Volt (Dry Cell) x 2ea
Battery Life :
>18Hrs (Li-Ion, rechargeable 2ea)
>6Hrs (Li-Ion, rechargeable 1ea)
>15Hrs (AA Li-Ion 8ea)
Video Output : NTSC
Brightness / Contrast : Auto, Manual
Polarity Control : Auto, Manual (Black, White Hot)
Reticle : 4 Preset Patterns
TWS-VM (Thermal Weapon Sight - Variable Magnification) Description
The TWS-VM is a lightweight electro-optic device that uses uncooled thermal imaging to
create images by detecting the different temperatures of objects and creating an image with
them. This system comes with the following characteristics:
-Battery Powered or 3.3-3.5 V DC for prolonged use
-Video Recording via Output and Recording Device
-Objects are detectable through adverse weather and battlefield conditions
-Around the clock, silent operation with no external illuminators or
lights for the enemy to detect
-Compatible with a broad range of weapons and applications
KEY FEATURES :
Design
Rugged enough for military use, but still easy to use. Simple user interface with programmable
reticles custom designed for any application.
Characteristics :
- Objects detectable through battlefield obscurants and
adverse weather conditions
- No external light required for operation, enabling around the clock applications
- Undetectable, Illuminators or Infrared lights unnecessary
- Can be operated hand-held or mounted on firearms or tripod
- Compatible with a broad range of weapons
Uncooled Thermal Imager
State of the art VOx Uncooled Thermal Imager provides a cost effective solution that provides
clear images in bright, low light, adverse weather and battlefield conditions.
Versatile
Variable applications as a weapon scope, stand alone thermal observation device and spotter
scope.
12
FICON
13
Fire Control Unit
The FICON was developed specifically for the K-11
Next Generation Rifle for the Korean Army. This
system includes a laser range finder, uncooled
infrared imaging and fuse timer for the 20mm air
burst grenade round.
Using the laser range finder, each unit is able to
calculate the trajectory to which the grenade
round must be fired in order to effectively hit the
target. The computer automatically calculates a
fuse time for the airburst grenade round. The
hardware and software in the fire control unit do
the work for the soldier. The soldier just has to
point the gun where the sight tells him to and pull
the trigger.
Each unit is mounted directly onto the K-11 Rifle,
and provides all the hard and software. There are
both day and night optics in this sight, and each
rifle has a human detection range of up to 500m.
SPECIFICATIONS
Optical
Magnification
- Direct Visible Module : 2.2X
- Thermal Imaging Module : 2.2X
Detection Range : 500m (Person)
Field of View
- Direct Visible Module : 10°
- Thermal imaging Module : 10 °x 7.5 °
Eye Relief : 50mm min.
Resolution
- Direct Visible Module : 30”
- Thermal Imaging Module: 320x240
Diopter Focus : -4D ~ +2D
Laser Range Finder Range : 500m@1x1m
Trajectory Calculation
: Trajectory calculation Automated reticle
Ambient Sensors
: Temperature, inclination (Sensors)
Fuse Setting
: Power & Signal supply to AB fuse
(Fuse Setter)
Mechanical
Weight : 2Kg
Environmental Condition :
MIL-STD-810F & MIL-STD-461E
Electrical
Power : 3.6VDC / 8 Hours
Array Size : 320 X 240(UFPA)
FICON (Fire Control Unit) Reference
Keeping up with modern warfare trends, the Korean Armed Forces requested a weapon that
would replace their older units and set a milestone worldwide for small arms.
The new K-11 Next Generation Rifle is the response to this. With light armor piercing rounds
and air burst grenades, this weapon has been specifically designed to meet the needs of ever
evolving modern warfare.
The system as well as the weapon itself are fully developed and ready for export. Each uses 20
mm grenade rounds and is compatible with 5.56mm NATO standard ammunition.
KEY FEATURES :
Uncooled Thermal Sight
Uncooled Thermal Imaging has found its niche in urban combat. The properties of thermal
radiation allow imagers that detect it to see through smoke and dust, as well as detect targets
in complete darkness. The system magnifies the image by 2.2x and allows for day and night
detection of 500 m.
Characteristics :
- Day&Night Observation(2.2X Magnification)
- Range Finding
- Trajectory calculation
- Automated Reticle, Fuse setting
- Interlocked to Rifle
System Features :
- Integrated System for increased lethality and performance
- One housing for many different systems
- Uncooled thermal imaging for both day and nighttime use
Integrated Systems
All the systems are integrated into this single unit. From fuse timer to laser range finder, this
unit houses and governs over the entire rifle. The laser range finder has been calibrated to fit
the maximum detection range of the IR Sight. All the systems in this machine have been
designed ergonomically and to maximize the lethality and survivability of the soldier.
Suited for Urban Combat
The air burst rounds and armor piercing rounds have been designed for urban combat. The
thermal sight is configured to provide maximum range without sacrificing close quarter
combat capabilities. Although this gun is not able to shoot around corners, this is the closest
thing.
14
NMS
15
Night Monocular Scope
The NMS is designed for individual soldiers and law enforcement
personnel. Because of its light weight and versatility, it can not only
be mounted on the head or helmet, but also on weapons and
cameras. This device gives soldiers and law enforcement the
versatility they need to engage in operations with optimum
efficiency.
SPECIFICATIONS
Single Version
ACCESSORIES
Single Version Detail view
Dual Version
Standard Accessories
Head Mount Assembly
Head/Helmet Mount Adapter
Carrying Case (Soft Bag)
Sacrificial Window
Demist Shield
Shoulder Strap
Each cup / Cap Plug
Lens Paper
Operation’s Manual (English)
Dual Version Detail view
Optical
Image Intensifier Tube
: Gen. III or equivalent to Gen. III
On-Axis Resolution (min.) at Optimum
System Magnification : 1 X 0.03
System Distortion : Less than 3%
Range Focus : 25cm to infinity
Eye Relief : 25mm
Field of View : 40
2
Objective Lens : F/1.2
Carrying Case (Soft Bag)
Each case has been ergonomically
designed to carry all essentials of
the NMS into the field. It can be
attached to a utility belt or carried
by the detachable shoulder strap.
Head/Helmet Mount Adapter
This simple adapter allows for quick
attachment and detachment to the
Head and Helmet Mount
Cap Plug
This rubber cap protects the
objective lens from damage when
not in use
Mechanical
Operating Temperature : -51 ~ +49
Storage Temperature : -51 ~ +85
Weight w/ batteries
: Dual Type 370g, Single Type 350g
Environmental Condition : MIL-STD-810F
Electrical
Power Source : 1 or 2 AA batteries
(Alkaline/Lithium)
Battery Life (min.)
- Dual Type : 120 hours (Two AA batteries)
- Single Type : 40 hours (One AA battery)
Head Mount Assembly
Each Head Mount is fully
adjustable to fit any size and shape
of head. This mount does not
require the use of a helmet.
Eye Cup
Each cup has been designed to fit
firmly and comfortably around the
eye to allow for maximum
performance and to prevent enemy’s
detection of the glow of the device.
Demist Shield
This screw on lens prevents the
fogging up of the eye-piece.
Sacrificial Window
This screw on glass lens protects
the objective lens from battlefield
conditions such as dust and
particles that may damage and
scratch the lens.
Optional Accessories
Helmet Mount Assembly
Small-Arms Mounting Adapter
3X Magnifier Lens
Laser Protective Filter
Shipping/Storage Case (Hard Case)
Characteristics :
- High resolution, High gain, and very High Photo-response to visible light and
near infrared radiation
- Can be mounted onto various devices such as Firearms,
Head or Helmet Mount Assemblies, Digital cameras and Camcorders
- Variable gain control for enhanced performance in altering light conditions
- Dual and Single battery configurations available
Shipping/Storage Case (Hard Case)
The Hard Storage Case has been
especially ruggedized to protect the
NMS while in storage or transit.
The air vent helps circulate the air,
keeping the device pristine.
3x Magnifier Lens
The 3x magnifier lens triples the
range of the NMS. It is easily
attached and lightweight.
Laser Protective Filter
The Laser Filter attaches onto the
objective side of the system and
protects the user and device from
high intensity lasers.
Helmet Mount Assembly
The Helmet Mount has been
designed to fit securely onto any
military helmet. The length is fully
adjustable, and it provides a stable
platform to interface with the NMS
Small-Arms Mounting Adapter
The Small-Arms Adapter mounts
the NMS onto any standard
Picatinny Rail.
16
DNS
17
Day & Night Sight
The DNS, or Day & Night Sight, is a military grade
day and night weapon sighting system designed
for soldiers and military personnel. Its unique
design allows for around the clock usage. By
swapping the eyepiece, one can engage in
surveillance or acquire targets regardless of
ambient light conditions. The night eyepiece
implements a Gen III or Equivalent to Gen III
Image Intensifier Tube. This allows for a clear,
high resolution image in even the darkest of
nights.
SPECIFICATIONS
Optical
System Magnification : 4 X
Detection Range
: 800m (Person), 1,200m (Vehicle)
Eye Relief : 25mm
Field of View : 10°
Objective Lens : F/1.5
Mechanical
Weight
- Daytime : 870g, Nighttime : 1,080g
Adjustable Brightness Control Knob
Illuminated Reticle with Light Intensity
Adjustment
Electrical
Power Source : 2 AA batteries
(Alkaline/Lithium)
Battery Life (min.) : 100 hours at 25
DNS (Day & Night Sight) Reference
The sun doesn’t wait on you to finish your missions. In the battlefield, there is nothing worse
than not being prepared. The DNS is a weapon sight for use in the daytime as well as the dark
of night. This reliable and proven weapon sight is currently in service with the Korean Armed
Forces. Each system comes with two separate eyepieces that interlock with the main body of
the sight in seconds time. Its lightweight design is perfect for a multitude of operations. For
around the clock surveillance and target acquisition, the DNS is the ideal weapon sight.
KEY FEATURES :
Illuminated Reticle and Adjustable Brightness
No two situations will ever be exactly the same. Each DNS comes with an adjustable
illuminated night reticle, easily controlled with the twist of a knob. There is also a gain
adjustment knob to control the brightness of the night image. This controls the amount of
power that is fed into the image intensifier tube, and therefore controls how bright of an
image is projected.
4x Magnification
When a scope offers a high magnification, it must sacrifice with a smaller field of view. The
DNS offers a 4x overall magnification, finding the perfect balance of range and field of view.
Characteristics :
- Gen. III or Equivalent to Gen. III Image Intensifier Tube
- Day & Night Operation Integrated
- Magnification 4X
- Airtight construction to protect from humidity and allow for cold weather operation
- Vibration Proof, Shock Proof, and Water Proof
- Adjustable Brightness Control
- Illuminated Reticle with Light Intensity Adjustment
- Uses commercially available AA Alkaline / Lithium Battery
- Light Weight
100 Hours of Usage
Each night scope has a 100 hour min. operating time at 25 . When you’re out in the field,
there's nothing worse than your equipment failing you. This guarantees that you have one less
thing you have to worry about.
Clear Night Images
Each DNS comes standard with a Gen III or equivalent to Gen III Image Intensifier Tube. This
tube offers the cleanest of images, in the darkest of nights. Combined with the glass
magnification optics, each system offers low visual noise, high resolution and contrast, and the
best possible performance to give every soldier the advantage they need.
18
SMOD
19
Stabilized Multi-function Observing Device
The SMOD is a Day & Night surveillance device
equipped with a gyro-stabilizing function. This
allows for a clear and stable image on vibrating
and moving platforms in the day, and at night.
With a simple switch of the eyepieces, the user
can observe around the clock. The night eyepiece
amplifies ambient light 30,000 times to give users
a clear image in the dark of night. The high
magnification of the SMOD makes it most suited
for observing in open plains, seashores or desert
terrains.
SPECIFICATIONS
Characteristics :
- Day & Night time Stabilized observation with interchangeable Day &
Night eyepieces
- Gen. III or equivalent to Gen. III Image Intensifier Tube
- Compact & Light Weight
- Waterproof
- Operates continuously for about 38 hours on two AA Batteries
- Ranging Reticle
- Low Battery Indicator
- Image-stabilizing Gyro System
Optical
System Magnification
: Day 15.5 X, Night 9.5 X
Detection Distance
: Day 4.0 ~ 7.5km, Night 1.0 ~ 1.2km
Field of View : Day 5.3°, Night 4.5°
Exit Pupil : Day 4.31mm, Night 5mm
Mechanical
Weight : 2.20kg
Environmental Condition : MIL-STD-810
Image Stabilizing Gyro System
Electrical
Power Source
: BA-5567/U(2.7V) or 2 AA batteries
(Alkaline/Lithium)
Battery Life (min.)
: BA-5567/U 21hours, AA Alkaline 38hours
SMOD (Stabilized Multi-function Observing Device) Reference
The hardest part of surveillance from a moving vehicle, is having a clear image. Every bump in
the road, on the sea or in the air will shake and distort the image. The SMOD provides a stable
platform for the observer to spot and track targets. This easy to use and compact system offers
clean images over incredible distances. Each monocular system comes standard with a
distance measuring reticle.
KEY FEATURES :
Stabilization with High Magnification
The SMOD can detect targets up to 7.5 kilometers away. The problem with such a long range,
is that the slightest movement will distort the image and possibly cause you to lose your mark.
The stabilization unit inside the SMOD allows the user to fix on his target without worrying
about his unsteady hands failing him. Each unit has a gyro stabilization unit, that uses the
physics behind centrifugal motion to keep the image stable, even when the user is unable to do
so.
Day and Night Eyepieces
Each SMOD comes standard with a Gen. III or equivalent to Gen. III image intensifier tube eye
piece. This tube offers the cleanest of images, in the darkest of nights. Combined with the glass
magnification optics, each system offers low visual noise, high resolution and contrast, and the
best possible performance. This eyepiece can be switched out for a daytime eyepiece.
20
TGPS
Thermal Gunner’s Primary Sight
SPECIFICATIONS
The TGPS is a gunner’s fire control system that
incorporates an array of optical and electrooptical devices. It has been designed to integrate
into the turret of AAV’s, IFV’s and Main Battle
Tanks, and is compatible with a wide range of
weapons as the primary fire control unit.
Each unit incorporates a Direct Visible Glass
Optic , Daytime CCD Camera and Thermal
Imaging system. This allows for the operator to
acquire his target under normal, fog, smoke, high
light and adverse battle field conditions. The
ruggedized color LCD displays for the CCD
Camera as well as the Thermal Imager and allows
for instant responses to target acquisition.
21
Optical
Magnification
- Direct Visible Module : 8X
- Daytime CCD Module : 1X
- Thermal Imaging Module : W.FOV - 3X , N.FOV - 6X
Detection Range : 1,500m (Vehicle)
Field of View
- Direct Visible Module : 6° 5%
- Daytime CCD Module : 40° X 30°
- Thermal imaging Module : W.FOV : 12° X 9°, N.FOV : 6° X 4.5°
MRTD : 1.2 @0.75 cy/mrad
Eye Relief : 18mm min.
Mechanical
Weight : 23kg
Dimension (L X W X H) : 380X270X510mm
EMI : MIL-STD-461E
Electrical
Power : 20 ~ 30 Volt DC
Video Output : NTSC Standard
Wavelength : 8 -12
Array Size : 320 X 240(UFPA)
TGPS (Thermal Gunner’s Primary Sight) Reference
In the battlefield, you look for every advantage that you can get. Situations have far too many
variables to leave things up to chance. You need to be prepared for any and everything. The
TGPS integrates 3 different forms of target acquisition into one easy to use system. This
rugged system can be highly customized to fit the needs of any infantry fighting vehicle or
main battle tank.
Each unit contains a high magnification glass optic, uncooled thermal optic and CCD camera.
The gunner is able to choose which way to acquire his target, and confirm hits with the same
or a different form of vision. These forms of visual acquisition are integrated into a single unit
and are easily interchanged.
KEY FEATURES :
Three Different kinds of Views
The TGPS integrates 3 different kinds of viewers into a single unit. The thermal unit is an
uncooled thermal viewer with 2 different fields of view with different magnifications and
varying fields of view. The daytime CCD camera is a color view with a low magnification. With
a low magnification, the gunner is able to get a wider field of view and find targets within close
proximity to the armored vehicle. The glass optic has an 8x magnified view. Day or night, you
can detect targets 1.5 kilometers away.
Characteristics :
- Significantly Improved Thermal Imaging Module
- Gunner Thermal Controls and Displays
- Improved Gunner’s Day Sight Magnification
System Features :
- Direct Visible Optical Sight
- Daytime CCD Camera
- Nighttime IR(Uncooled) Thermal Sight
- Ruggedized Color LCD Display(6.4”)
- Combat Proven Reliability
- 8X Day & 3X, 6X Thermal Magnification
- Suitable for a wide range of Weapons & Turret Application
Uncooled Thermal Imaging
Although cooled thermal imaging is better for long distance surveillance, uncooled thermal
imaging is better for actual battlefield conditions. Long Wavelength Infrared Radiation, that
Uncooled Thermal Imagers pick up, transmits better through fog and dust.
Customized Reticles
Each armored vehicle has different weapons and armaments. To accommodate for this, each
system will be custom programmed with a set of reticles to be selected from that have been
calibrated to the specified weapons.
Easy Integration
The TGPS can easily be integrated into numerous armored vehicles. It can act as a direct
replacement for the M36E, without any modifications.
22
TDV
Thermal Driver’s Viewer
SPECIFICATIONS
The TDV is a night driving system that is
equipped with an uncooled thermal imaging
sensor. The TDV can be mounted onto various
kinds of armored vehicles, IFVs and Battle tanks.
The TDV’s Thermal Imaging Sensor makes it
invaluable under all weather and battlefield
conditions.
23
Optical
Magnification : 1X
Field of View
- Moving 30° (both Horizontal and Vertical)
- Fixed : 45°< (Horizontal)
34°< (Vertical)
MRTD : 0.5 <@0.1 cy/mrad
Mechanical
Weight : 5.0kg(Without Display)
EMI : MIL-STD-461E
Operating Temperature : -32 ~ 50
Electrical
Power : 24 6 Vdc
Functions
- Black Hot/ White Hot
- Gain Control Function
- Image Compensation
Array Size : 320x240 (UFPA)
TDV (Thermal Driver’s Viewer) Reference
At night, driving in the dark is not something that seems very reliable. Driving with your lights
on gives away your position. And worst of all, a dust storm is approaching. What do you do?
The TDV allows the driver to navigate through city streets as well as the back roads in
complete darkness. The Thermal Driver’s Viewer does not require ambient light, so driving
through caves and tunnels does nothing to hinder the driver. Thermal imaging is able to see
through battlefield conditions and weather, making this an ideal system for a whole multitude
of systems.
KEY FEATURES :
High Field of View
The Night Driver’s Viewer system does not require the driver to see for miles ahead. This
results in a low magnification and a higher field of view. It is more important to see what’s
directly in front of you, not what is 5 km’s away.
Characteristics :
- No ambient light required
- Enables driving in complete darkness
- Enables driving though smoke and dust
- Can be installed to various vehicles
- Uncooled 320x240 Array
- Easy to use
- Large Field of View
System Features :
- The on-screen display can be customized. The width of the vehicle can be
displayed on the screen, to maximize comfort for the driver.
- Image compensation increases the quality of the image for a clearer view
All Condition Driving
Torrential rain, heavy fog, sandstorms and dust have all traditionally been problems when
trying to get from point a to point b in the battle field. Also being aware of your surroundings
ensures the safety of the passengers and drivers. Thermal Imaging is not effected by weather
or external conditions, making it perfect for your vehicle.
Ruggedized
This unit has been designed to withstand the harshest of conditions and increase survivability.
The unit can be broken up into modules and attached onto any armored vehicle.
Easy Integration
The TDV has been designed to be a direct replacement for the EOST NDV. Because it can be
broken up into modules, it can be applied to almost any vehicle.
24
NDV
Night Driver’s Viewer
SPECIFICATIONS
The NDV is a night driving system that
incorporates an Image Intensifier Tube in order to
obtain an image in the darkest of night. It has been
designed that it would be compatible with
numerous types of IFVs and Battle Tanks. Each unit
comes standard with a Gen. II image intensifier
tube, and is upgradable to a Gen. III or equivalent
to Gen. III for a 60% higher resolution, sensitivity
to low light, and better overall spectral
performance in the near infrared range.
Field of View : Horizontal 44°, Vertical 35°
Resolution : 1.25 milliradians
Depth of Field : 4m ~ infinity
Magnification : 1x
Ambient Brightness Cut-off
: The electronic Control assembly disengages power to the Image Intensifier
when the ambient brightness exceeds a specified level, typically 4 foot-lamberts.
M.T.T.F : Min. 1,000hrs
AN/VVS-2(V)
I
25
AN/VVS-2(V)
II
AN/VVS-2(V)
AN/VVS-2(V)
AN/VVS-2(V)
NDV (Night Driver’s Viewer) Reference
Night Vision has been around for decades. This system integrates image intensifying
technology into a versatile driver’s viewer. Dependent on the driver’s requirements, the NDV
can be fitted with any image intensifier tube, depending on the required level of clarity and
expected level of ambient light.
Each unit has been designed to be compatible with many different kinds of armored vehicles
and users. The viewer does not sacrifice performance for durability. Each unit meets Military
Standard Specifications (MIL-STD-810). This easy to use viewer has been the standard for
Korean Armored vehicles and users overseas for years.
KEY FEATURES :
Easy Viewing
The viewer is able to view through large diameter viewer. The large diameter view allows for
the driver to see the image from many inches away, instead of having to fix his head into an
awkward position to see what is ahead.
High FOV
The Night Driver’s Viewer allows for a high FOV to increase situational awareness. There is
nothing more dangerous than not knowing what’s around you.
Characteristics :
- Passive, Electro-Optical Periscope
- For the night driving of closed-hatch armored fighting vehicles and tanks
- Biocular Display, for the driver to view from several inches away.
Applications :
- AN/VVS-2(V) I : K200, M113, M47, M48, M60 etc.
- AN/VVS-2(V) II : K1, M1 A1, M1 A2, MBT
- AN/VVS-2(V) III : K55, K9, M109 A2
- AN/VVS-2(V) IV : Light Armored Vehicle, NBC, Flying-Tiger
- AN/VVS-2(V) V : M60 MBT, M113 A3, KAAV-P7 A1
Different models to fit your needs
There are 5 different Night Driver’s Viewer Models to fit the needs of a multitude of Armored
Vehicles.
26
PERISCOPE
M-SERIES
The M-Series and K-Series Daytime Periscopes are
used in groups with the units placed at various
strategic positions in the vehicle to allow
maximum viewing of the terrain.
M-Series and K-Series Daytime Periscopes can be
installed on to various armored vehicles, IFV’s and
Battle Tanks. They allow observation of the close
proximity while keeping the crew safe from a
harsh and unforgiving battle field.
Classification
Type : M17
P/N : 7043549
N.S.N : 6650-00-704-3549
Type : M27
P/N : 7633132
N.S.N : 1240-00-344-4634
Type : M45
P/N : 8213430
N.S.N : 1240-00-509-2743
27
Specifications
Standard : MIL-STD (Applied to Technical &
environmental Standard MIL-P-46329A)
Luminous Transmittance : At least 50%
Resolution : Degree of Arc - More than 1min.
Spherical Power : -0.5d to +0.25d
Field of View
- Horizontal : More than 91°
- Vertical : More than 29°
Operating Temperature : -54 to +74 / MIL-STD-810
Shock : 150@2ms/MIL-STD-810
Application
M17: M113, M48, M47
M27 : K55, K9, M113, M48
M45 : K55, K9, M109A2/A6
K-SERIES
Classification
Type : D/S
P/N : 60731131
N.S.N : 6650-01-093-5864
Type : D/L
P/N : 60731121
N.S.N : 1240-01-074-5766
Type : C/S
P/N : 60702823
N.S.N : 1240-01-080-8004
Specifications
Standard : Applied to Korean MIL-STD
Luminous Transmittance : At least 20%
Resolution : Degree of Arc - More than 2min.
Spherical Power : -0.6d to +0.3d
Field of View
- Horizontal : More than 88°
- Vertical : More than 23°
Operating Temperature : -51 to +71 / MIL-STD-810
Shock : [email protected]~11ms /MIL-STD-810
Type : C/T
P/N : 60702818
N.S.N : 1240-01-079-304
Application
D/S : K1A1
D/L : K1A1
C/S : K1A1
C/T : K1A1
Characteristics :
- M-Series and K-Series Periscopes can be mounted on various kinds of
Armored Vehicles
- Designed to fit Stability, Reliability, and Compatibility of all kinds of
Armored Vehicles
- Protects Armored Vehicle crews from Lasers, Splinters of a shell and
other kinds of Dangerous Factors
PERISCOPE Reference
Sometimes it is best to go with the classics.
The EOST Periscope is currently used on multiple platforms. As warfare evolves, there will
always been a single factor thing that will be the key to a soldier’s survival, situational
awareness. There is no need to be able to see for miles, if the threat is a few yards away. By
mounting these periscopes in strategic locations, one is able to observe the general proximity,
and assess for themselves the immediate threats.
The more moving parts, the more likelihood of something breaking down. Because of the
seemingly simple design, there is little or no room for malfunctioning parts in the M and K
series periscopes.
KEY FEATURES :
Safety
The periscope allows for the users to observer their proximity without worrying about shrapnel
and flying rocks harming them.
28
Night Vision Technology
Image Intensifier Tubes
Night Vision is a vague term that
references the creating of an image in
situations where there are limitations
to the naked eye because of low levels
of light. There are two major types of
Night Vision that are in use today:
Thermal Imaging and Image Intensifying.
Thermal Imaging utilizes radiation and
creates an image by displaying
temperature differentials. This type of
imaging can be used in both night and
day times. During night times, it gives
the advantage of not requiring any
light. In situations such as inside caves
or sealed off buildings, there is no
ambient light. This makes image
intensified night vision useless. Also
thermal imaging is more constant.
Since all matter gives off a certain
amount of thermal energy, there will
always be an image. A soldier cannot
control the amount of light in his
surroundings. If it’s too bright or too
dark, it makes thermal imaging a much
better option.
Image intensifying technology relies
on a device called image intensifier
tubes. This tube takes the light that is
already there and amplifies it tens of
thousands of times. The major draw
back that this technology has is that it
relies on actual light. If there is no light
to amplify, then there will be no
image. Also if there is too much light,
it will damage the tube itself and
display an extremely bright image to
the user. But because light is amplified,
the image itself is an image that we
normally see with our eyes. This allows
Light is essentially photons. These photons reflected off
objects give things what we know as color and create the
images we see in everyday life. When there is a lack of these
photons, or light, the image grows dimmer until it is too dim
the user to see details that thermal
imaging would not be able to show.
For example, with thermal imaging,
the soldier would be able to see and
recognize that it is a soldier, but his
facial features, and uniform would all
be the same color. With image
intensified night vision, the user would
be able to see the details of the face as
well as the markings on the soldier’s
uniform.
Not all night vision technology is the
same. American Image Intensifier
tubes and European tubes have
significant differences but achieve
similar results. The difference comes
down to the chemical make up of the
photocathode and some of the
technology incorporated into the tubes
themselves. However, regardless of
their country of development, their
results are the same. They help soldiers
be more effective, and keep them
alive.
29
for our human eyes to differentiate any perceivable changes.
But even if we do not think there is light, there are sources
all around us at night. These tubes take this light to help us
see.
Photocathode
The photocathode is chemically treated to be ultra sensitive
to light. It can detect levels of light that we cannot with our
own eyes. As the light photons hit the objective face of the
lens, the inside face gives off electrons. There is a wide array
of chemicals that can assist in this process. Different
companies use different chemicals, but achieve similar if not
the same results.
Micro Channel Plate (MCP)
After passing through the Photocathode, the electron
particles proceed through the tube structure to the Micro
Channel Plate or MCP. The MCP is a glass plate consisting of
tiny tubes to allow for the electrons to pass through. Each
tube is oriented at an angle, causing the electrons to bounce
off the sides as it makes it’s way through the tube. The glass
is treated with a special electro conductive coating. As the
electrons bounce off the sides of the tubes, more electrons
are discharged. This is how the image is intensified. The
more electrons flow out of this plate, the brighter the image
will be.
Phosphor Screen
After the electrons go through the MCP, they then travel to
the phosphor screen. This is where the image that we see is
recreated. The electrons strike a screen of green or white
phosphor. As the charged particle hits the phosphor, it gives
off a glow. The more electrons hit the screen, the brighter
the image is. These glowing pixels combine to create the
image that we see.
Fiber Optic
Phosphor Screen
Micro Channel Plate(MCP)
Photocathode
30
Terms
Distortion
Classic : This occurs when the design of the optics is slightly
flawed to where the edges seem to curves inwards or the
square grid begins to look barreled or resemble a pin cushion
S-Distortion : When the fiber optics in the imager are flawed,
the image may start to twist. If the product is of any quality,
this distortion should be undetectable
Shear Distortion : This may occur in any scope that uses fiber
optic bundles in the phosphor screen. When the optics
become disarranged, the image may appear to look cut in
many directions.
Black Spots
These are blemishes in the image intensifier tube. This can
also occur when dirt, dust or debris enters between the lenses.
There are bound to be a few black spots of some size, but
should not effect the overall performance of the scope.
Blooming
This occurs when the scope is overloaded with electrons. The
sources that are emitting too much light will “white out” and
the whole image becomes brighter. This is a common
problem in early generation scopes.
Fixed Pattern Noise
This is a faint hexagonal pattern that often occurs under high
light conditions. This is the structure of the MCP, and is
inherent in all of both generation 2 an 3 tubes.
Scintillation
A slight random sparkling effect that is seen throughout the
image area. It is often referred to as video noise or static. This
occurs because of a innate issue with the Micro Channel Plate,
but does not become a pronounced unless in ultra-low light
conditions.
Emission Points
This is a bright spot on the imager that may or may not go
away. If the bright spot fades when in brighter light
conditions it is not a problem. If it remains, there is a problem
with the tube and will need to be repaired. These bright spots
may be so bright as to block out the image itself.
Photocathode
A glass disc with a photosensitive compound that emits
electrons when struck with photons
31
Image Intensifier Technology
MCP
Micro Channel Plate, a glass disk with millions of parallel
tubes that acts as an amplifier of electrons
Phosphor Screen
A screen where electrons are changed back into visible light.
Ion Barrier
A one way barrier that allows the flow of ions to the MCP but
does not allow the electrons to bounce back and damage the
Photocathode
Objective Lens
The lens farthest from the user, pointed at the target.
Photon
A positively charged Ion
Electron
A negatively charged Ion
Near Infrared Radiation
This is not light. We cannot see this. But it behaves similarly
enough to light that it can be detected using the same means
as ambient light. It is a form of electro-magnetic radiation,
with a wavelength slightly longer than that of visible light.
Eye Relief
The distance the user’s eye must be from the viewing lens of
the eyepiece in order to have an optimal view
Figure of Merit
This is often referred to as the FoM. This is a unit that
qualifies the quality and exportability of a product. It is
calculated by multiplying the resolution by the signal to noise
ratio.
Footlambert
This is a unit of brightness equal to a footcandle at a distance
of one foot.
Infrared Radiation
This is radiation, that simply put, you cannot see. The
wavelength of this radiation is outside the visual spectrum.
Near IR radiation have the shortest wavelength of IR and can
be detected using night vision devices. IR with longer
wavelengths cannot be seen by Image intensifying technology
for it is not visible light.
Typically, American Image Intensifier tubes are categorized
into 4 different levels or “Generations.”
Generation 1
This generation implements all the afore mentioned
principles. It will amplify all ambient light by thousands of
times. Each generation 1 unit has some level of distortion
with a slight high pitched noise for a split second or two when
turned on, and an ambient green glow immediately after
turning the unit off. The image itself was what we know as
night vision, but there was always a high level of noise, and
low performance with low levels of ambient light. This
generation could not detect near infrared radiation.
Generation 2
This generation is generally classified by the addition of a
micro channel plate inside the tube itself. The MCP is a glass
plate that has been coated with a material that allows for the
conduction of elections onto the plate. Each plate has
thousands of tiny tubes which the image enters into. The
more electrons, the brighter the image. This MCP amplifies all
light, and considerably increases the quality and brightness of
the image. The only problem with this technology is that the
price is significantly higher than that of the first generation,
but it provides a much clearer image, especially in low light
conditions.
Generation 3
By changing the reactive chemical inside the tubes, a much
more sensitive tube has been made. Up to now, the main
chemical agent has been multi-alkali, but by changing and
upgrading this to a next level chemical material, a much more
efficient tube has been made. In American tubes, an ion film
barrier had to be installed because there were too many
electrons. This film allows for a flow of ions in one direction,
but stops them from bouncing back. There would be too
many ions trying to fit into the tubes of the MCP. The rogue
ions would bounce back off the MCP and damage the
photocathode itself. In European tubes, the Generation III
equivalent does not need the ion film barrier, but sacrifices a
little image quality in the process. In both of these kinds of
tubes, the amount of light required for a clear image has been
decreased dramatically. This has allowed for tubes to be
installed on weapons with ranges exceeding 500 meters, or
more. Both developments have greatly increased the life of
tubes.
Generation 4
This generation of tubes does not have Ion film barriers. The
biggest problem with Image Intensifying technology has
always been when there is a light source that is too bright.
Too many ions in the tube damages the tube. In American
Generation III tubes, this problem was furthered by the
increased sensitivity to low light. Generation IV technology
increases the sensitivity of the tube, while removing the need
of the ion film barrier. The result is higher sensitivity to low
light. Auto-gating technology is a development that
moderates the amount of ions that enter by simply stopping
the flow of ions in timed intervals when the flow is too great.
This allows for a greatly increased quality of image and
performance. It also prevents white spots in picture. Areas
where the light blinds the user to the general vicinity.
Image Fusion Technology
This in new technology that has recently been developed. This
technique offers the benefits of both image intensifying and
thermal imaging technology by overlaying the images over
one another. The newest developments in image fusion
technology uses software to blend the two images, taking the
clearer sections of both types of imaging and creates an
image that gives the benefits of both types of imaging.
Because this is such a new technology, it is not widely
available.
32
THERMAL TECHNOLOGY
Thermal Imaging is a technology that
creates an image by the differences in
temperatures between objects. It can be
implemented effectively 24 hours a day
and can be used in complete darkness.
All objects emit some amount of heat
in the form of infrared radiation.
keep the sensor cooled to very low
temperatures. The Uncooled units do
not require expensive cooling units, but
sacrifice in range and image quality.
They are also much cheaper to produce
and have better performance in battle
field conditions such as smoke and fog.
All radiation falls within the
electromagnetic spectrum. Infrared
radiation has a wavelength longer than
visual light, so it cannot be seen by the
naked eye. Infrared is typically divided
into 5 subsections: near, short, mid,
long and extreme, and the unit of
measurement is Microns. Thermal
imaging technology detects infrared
energy in the mid (1.5-5.6 microns) and
long (5.6-14 microns) range.
These differences in performance have
given each unit their specific niche on
the battlefield. A soldier fighting in
urban terrain will typically not need to
see for 5 miles. Also because high
magnification means low field of view,
the soldier is actually hindered rather
than helped. But a forward observer or
scout may find that a cooled thermal
unit is much better for acquiring targets
miles out.
Thermal imagers create a video image
based on the heat of the image. Infrared
radiation behaves in a similar fashion to
visual light: it can be optically focused
and collected. Thermal Imagers utilize
various materials whose electrical
properties change when heated. These
changes in intensity of electrical signal
levels are then translated into a video
signal. These differences result in the
different shades of grey on a video
monitor, with each shade of grey
representing a specific temperature
level.
Both types of thermal imaging have
found a very important part in modern
warfare, and give the user the edge that
they need.
Within Thermal Imaging Technology,
there are 2 main divisions: Uncooled
and Cooled. Cooled units typically
detection mid-wave IR and have a much
longer visual range. Uncooled units
have a shorter range and detect IR
typically in the long-wave IR area. But
with every system, there are drawbacks.
The Cooled units are typically much
heavier and more expensive. They
require a cooling refrigeration unit to
33
Electromagnetic Diagram
Terms
Resolution : The number of pixels on the detector is the
camera resolution. The higher the resolution, the finer the
image detail.
Polarity : The scene displayed is typically referred to as
“White Hot” or “Black Hot”.
Cooled : A cooled thermal imager requires the detector to be
cryogenically cooled to very cold temperatures in order to
make the detector responsive to infrared energy, making the
camera high performing, but larger and more expensive.
Uncooled : Uncooled system operate without the need for
cryogenic cooling. They are more affordable, lightweight and
require less maintenance than cooled systems. Uncooled
systems are also ideal for small package assemblies like
handheld devices.
MRTD : Minimum Resolvable Temperature Difference
34
See Beyond
Export of these products are regulated by the Ministry of National Defence, Republic of Korea
35

EO SYSTEM PRODUCTS CATALOG Main office 542-7, Gajwa

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