NVG Manual Read

Question 1

NVD provide the aircrew with what capabilities:

Answer 1

1. Increased situational awareness.
2. Enhanced navigational capabilities
3. Enhanced Threat avoidance
4. Enhanced threat detection
5. Enhanced target acquisition
6. Multi/mixed aircraft tactics
7. Application of daytime air to GND tactics
8. Expanded night air to air tactics

Question 2

What are some of NVDs primary limitations:

Answer 2

1. NVDs are NOT all weather systems
2. Absolute humidity and illumination levels define the NVD operating envelopment
3. NVDs possess a limitied target acquisition capability when used alone.
4. NVDs possess a limited FOV
5. NVDs possess limited system resolution and electromagnetic spectral response

Question 3

Explain Gen 0 NVGs?

Answer 3

1. Developed 1930s
2. An Active sensor that required an accompanying infrared searchlight to illum the area of interest.

Question 4

Explain Gen 1 NVGs?

Answer 4

1. Introduced in the late 1950s with develop of Starlight Scope.
2. Attained HLL gains by 3 stage configuration of solely a photocathode/phosphor screen stack.
3. Provided gains in the range of 40,000x
4. Downfalls
   A. Extremely susceptible to blooming

    B. Still extremely large.

Question 5

What is blooming?

Answer 5

tendency for the tube to degain and shut down if a bright light enters the FOV

Question 6

Explain Gen 2 NVGs?

Answer 6

1. Developed late 1960s
2. The first small enough to be placed into systems that could be head mounted.
3. The introduction of MCP created mor eelectrons meaning less velocity needed.
4. Still susceptible to blooming but more localized due to MCP
5. Gain was only 10,000x vice 40,000x for Gen I

Question 7

Explain Gen 3 NVGs?

Answer 7

Changes that defined Gen III were
Introduction of Gallium arsenide photocathode and the use of an aluminum oxide protective coating on the input side of the MCP

Question 8

What did Gallium Arsenide provide in Gen 3 NVGs?

Answer 8

1. Gallium Arsenide changed the spectral sensitivity of the NVG. Made it more sensitive in the near IR
   A. Shift to the near IR better matches the energy in the night sky.

Question 9

What is the spectral sensitivity of the NVGs?

Peak sensitivity?

Answer 9

400 to 950 nm (.4-.9 microns)

peak sensitivity being 600-900nm (.6-.9micron)

Question 10

What does Aluminum Oxide in the MCP provide the GEN III NVG?

Negatives?

Answer 10

1. Protects the photocathode from Ion bombardment created by MCP
2. Consequence of the introduction is increase in voltage between MCP and photocathode. Therefore had to increase distance to prevent sparking.
   A. Which in turn increases halo size

Question 11

FLIR stands for?

Answer 11

Forward Looking Infrared

Question 12

What are key features of a targeting FLIR?

Answer 12

The ability to slew and magnify.

Question 13

What was the Go/No-Go for the AN/PVS -5? And why does it matter?

Answer 13

The Go/No-Go was at least 20% of the moon disc illumination at least 30 degrees in the sky. (I.e the 20/30 rule)

This rule is roughly equivalent to 0.0022 lux, which is the threshold for HLL.

Question 14

What is sensor fusion?

Answer 14

The melding of data from different sensors to form a complete view of the scene.

Question 15

3 noticeable improvements with the WP I2 tubes?

Answer 15

1.Reduction in Halo size

2. Increased obstacle detection distances
3. Reduced time for target correlation during ordnance employment

Question 16

What is Illuminance? What is it expressed in?

Answer 16

The amount of light generated from a source. Expressed in Lux

Question 17

The amount of light generated by a source is called what?

Answer 17

Illuminance

Question 18

The amount an object reflects is called what? How is it expressed?

Answer 18

Luminance; (ft-L) foot lamberts

Question 19

Define luminance?

Answer 19

The amount of light an object reflects

Question 20

What is albedo?

Answer 20

The relationship/ratio between Illuminance(generated light) and luminance (or reflected light).

Question 21

What are the factors that will determine how an object appears on the FLIR?

Answer 21

1. Temperature
2. Thermal history
3. Emissivity
4. Thermal mass
5. Thermal inertia

Question 22

What determines thermal energy?

Answer 22

An objects exposure to 1 of 3 principle sources of thermal energy:
a. Solar
b. Man Made
c. Thermal reflection

Question 23

What is Emissivity? And Why does it matter?

Answer 23

The ability of an object to emit energy compared to a blackbody at the same temperature

Emissivity determines how much of the energy detected by a FLIR. Is from self emission and how much is reflected radiant energy

Question 24

What is Thermal mass?

Answer 24

1. The ability of an object to store heat
2. Thermal mass is determined by temperature, mass, and type of material.
3. Is reflected in a measurement called specific heat

Question 25

What is Thermal Inertia?

Answer 25

1. Is the rate at which objects change temperature and dependent upon combination of thermal mass and thermal resistance.
2. Ultimately the thermal inertia that varies the heating and cooling cycle for different objects in the natural scene that allows for good contrast

Question 26

What are the 3 major factors that influence NVD performance?

Answer 26

1. Illumination/thermal scene
2. Terrain contrast
3. Atmospheric conditions

Question 27

What factors affect the amount of Lunar Illumination?

Answer 27

1. Lunar cycle
2. Moon angle
3. Lunar albedo
4. Variation in earth to moon distance.

Question 28

How long is a lunar month?

Answer 28

29.5 days

Question 29

Which phase of the moon is brighter the waxing or waning moon?

Answer 29

The waxing portion

Question 30

What is airglow?

Answer 30

1. energy provided by emissions from atoms and molecules in the upper atmosphere

   A. Approx 40% of energy provided on a moonless night.

Question 31

How much light does starlight provide?

Answer 31

0.00022 lux

Question 32

What are the three categories of twilight and how are they classified?

Answer 32

1. Civil: 0 to -6 degrees below the horizon
2. Nautical: -6 to -12 degrees below the horizon
3. Astronomical: -12 to -18 degrees below the horizon

Question 33

What is sky glow? When is it a factor.

Answer 33

The sun bouncing energy off the particles in the upper atmosphere. Is still a factor until after EENT.

Question 34

What are the key factors to terrain contrast?

Answer 34

1. Albedos
2. Contrast
3. Shadowing

Question 35

Why is shadowing a greater factor at night then it is during the daytime?

Answer 35

At night, since the NVG require a source of illumination to function they will not be as much energy or any IOT see into the shadow

Question 36

What are the 3 principle sources of thermal energy?

Answer 36

1. Solar radiation
2. Man made
3. Thermal reflection

Question 37

At what humidity does it become and effective wall for the FLIR?

Answer 37

Absolute humidity of 20 g/m3

Question 38

What is relative humidity?

Answer 38

A ratio that expresses the amount of moisture in the air compared to the maximum amount at the same temperature.

Question 39

What is absolute humidity?

Answer 39

Total amount of water vapor present in a given volume of air and is expressed in g/m3

Question 40

What effects does humidity have on the NVGs?

Answer 40

Effects vary with particle size that plays more of a factor.

Question 41

What are the two types of scattering?

Answer 41

Molecular and aerosol

Question 42

What is molecular scattering?

Answer 42

When energy is scattered by particles that are much smaller than the wavelength of the incident radiation.

Not considered a major factor for predictions FLIR system performance.

Question 43

What is aerosol scattering?

Answer 43

Involves large particles such as dust or smog and scatters energy by reflection when the wavelength is less than or equal to the diameter of the particle.

Causes a change in direction in all directions and it is equal to the diameter of the particle.

Little effect on the FLIR but significant effect on NVG.

Why can see through some some and haze.

Question 44

How do NVGs differ from the human eye?

Answer 44

1. NVGs are exponentially more sensitive to energy available in the night sky.
2. NVGs respond to a different portion of the EM spectrum.

Question 45

What is the range of adjustment on the vertical knob?

Answer 45

25 mm

Question 46

What is the range for the tilt lever?

Answer 46

+- 5 degrees

Question 47

What is the range of the fore and aft relief?

Answer 47

26mm

Question 48

What is the designed eye relief for the AN/AVS-9?

Answer 48

25 mm

Question 49

What are the 2 type of objective lens filtering?

Answer 49

Class B (minus blue) and Class C (leaky green)

Question 50

What range does Class B objective lens filter out?

Answer 50

< 665 nm

Lens filtering that “rejects” energy below a specified wavelength of 665 nm.

Question 51

Describe Class C Filtering objective Lens

Answer 51

“Leaky Green”

1. Has a notch incorporated into the Class C filter to allow approx 1% transmission of a narrow band of energy (540 to 550 nm) to reach the I2 tube.
2. The notch allows aircrew the ability to view the HUD symbology and raster FLIR image through the NVG

Question 52

What are the three primary components of the GEN III I2 tube?

Answer 52

1. Photocathode
2. Microchannel Plate [MCP]
3. Phosphor Screen

Question 53

Describe the role Photocathode in the I2 tube.

Answer 53

1. The responsibility if for converting the incoming visible and near-IR energy int electrical energy in the form of electrons.

Question 54

What did the gallium arsenide photocathode provide?

Answer 54

The gallium arsenide photocathode was introduced with the GENIII I2 tube. Provided the following:

1. More than 3 fold increase in sensitivity over GEN-I and GEN-II.
2. Shifts the spectral response range toward the near infared spectrum
   a. Response range: .4 -.9 microns (peak sensitivity between .6-.9 microns.)
   b. This is significant because the night sky spectral irradiance is 5-7x greater in between .8-.9 micron range.

Question 55

Describe the MicroChannel Plate [MCP]

Answer 55

1. The MCP is a very thin (1mm) wafer comprised of more than 6 million tiny glass tubes or channels.
2. Each tube is coated with a material that causes secondary electron emissions.
   a. To ensure this happens ant the entrance of the tube the are canted that 5 degrees.
3. Because of this process for each electron that enters the MCP, 1,000 or more will exit.
4. Increased electrons = increased gain

Question 56

What did adding for tubes to the MCP do?

Answer 56

1. Increased resolution
2. Decreases distortion as they are closer together
3. Increased gain.

Question 57

What is the phosphor screen and what is its purpose?

Answer 57

1. Comprised of a very thin layer of phosphor deposited on the inside of the rear window of a fiber optic bundle.
2. The basic function of the phosphor screen is to convert the electrons into photons so the user can view the image.

Question 58

What type of phosphor is used in the green and white NVGs?

Answer 58

Green= P43 @ wavelength of .545 microns

White = P45

Question 59

What does the fiber optic converter do?

Answer 59

1. Provides Image inversion, through the use of millions of microscopic light transmitting fibers that are heated and twisted 180 degrees.

Question 60

What is collimigation? Where does it occur? Why is it important?

Answer 60

1. Makes the image in the eye piece lens appear to be at the appropriate distance.
2. Occurs because of the fiber optic inverter.
3. Without it the eye’s focus would be set fro the distance to the eyepiece. =no depth perception.

Question 61

Define Gain:

Answer 61

Gain is the comparison of the the system’s input with its output.

Question 62

What are the two types of gain and define them?

Answer 62

1. Luminous gain: is defined as the ratio of the NVGs output brightness to the input illumination.
2. System gain: the brightness of the output image as compared with the input.

What is the difference???????

Question 63

What is ABC?

Answer 63

Automatic Brightness Control:

1. Is a circuit that automatically adjusts MCP voltage to maintain NVG image brightness at a preset output for a wide range of illumination levels by controlling the number of electrons that exit the MCP.

“THE DJ!!!!!!!”

Question 64

At what light level is unable to keep the NVG brightness the same?

Answer 64

Tube gain increases from full moon to starlight illumination. As light levels pass below starlight, each subsequent drop in illumination does not result in an increase in I2 tube gain

Question 65

What is BSP? How is it noticed?

Answer 65

1. Circuit that limits the number of electrons leaving the photocathode by reducing the voltage between the photocathode and the input side of the MCP. If it didn’t could cause serve damage to photocathode.
2. Aircrew will notice activation of BSP when an incompatible light source enters the NVG FOV and the I2 tube “shutdown” or “degain”

Question 66

What is the function of the eyepiece?

Answer 66

To focus the light from the fiber optic inverter onto the eye.