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Elm. CDlR color film is used to show contrasts between
live vegetation and camouflage material. This greatly
increasesth e chanceso flocating difticult targets.A erial
color films require expensive, complex processing that
is not generally available at sea.
22.7.6 Infrared Reconnaissance Set. The AADinfmred
line scanning detector is a passive detector of
energy in the far infrared region. The most striking characteristic
of the AADJ is its ability to detect thermal
activity, such as the hot-water discharge of a power
plant, the heat from the boiler of a ship, or the thermal
shadow left on a runway or ramp by a departed aircraft.
This characteristic can be used for many purposes, such
as determining the state ofreadiness of ships in a harbor,
judging the tratlic load of an airfield, determining the
quantity of P-O-L in storage tanks, determining whether
buildings are occupied,a nd separatingr ecentb omb craters
fiorn old ones. Since the AAD- IR detector cannot
determine the difference between the radiated energy
generatedb y activity and infmred (IR) energyr eflected
from the sun, some types of activity cannot be reliably
detected during the day.
The natural phenomenon of crossover will cause land
and water bodies to have identical IR signatures about
1 hour after sunrise and 1 hour after sunset. Missions
flown to detect land and water contrast (such as bomb
damage assessment on bridges) should avoid these
times by at least 2 to 3 hours.
ORIGINAL
NAWAlR Of-FMAAD-I
Focal Length
Angular Field Of View
Film Format
Image Frame Format
24 inches/MOmm
21.4 across track, 10.7 along track
4.5 x 9.5 inches
9.06 inches across track, 4.53 inches along
track
Frame overlap (preflight selected)
Film Capacity
Aperture Range
Maximum Cycle Rate
Average Resolution
Shutter Speed Range
Film Speed (preflight setting)
Linear Coverage (200 feet fflm @ 30K. 12 nmi
standoff @ 56% overlap)
12% or 56%
200 feet of 2.5 mil/2.47 frames per foot (500
feet optional)
f/4 to f/16 continuously
4 frames per second
75 Lp/mm, EK 3412
l/l50 to l/2,000 set
AFS 0 to AFS 999
467 nm
Weight (500 foot cassettes without film)
V/R Rate
233 pounds
0 - 0.196 knots/foot @ 56%
0 - 0.39 knots/foot @ 12%
1.25 knots/foot maximum
Camera Oblique Rotation (24 inch)
Angle of View (preflight adjustable)
+I- 86” of vertical
Vertical and left/right (at selected depression
angles)
Note
l Optional yellow, red, orange, or clear filters.
l Shutter priority automatic exposure control by preflight film speed setting
and aircraft V/H signal, accuracy l/2 f/stop.
l Sensor will automatically compensate for altitude pressure (sea level to
5,000 feet) and temperature (25 “C to 45 “C stable withln +I- 2°C).
l Sensor produces a LED matrix array data block wkh a 3 millisecond write
time.
Figure 2246. KS-153A Still Picture Camera Charactitics (610-Mm Standoff Configuration)
ORIGINAL
The AAD-~ IR detector is not an all-weather sensor.
It cannot collect imagery through clouds or extremely
heavy haze. It is relatively unaffected by smoke.
At low altitudes, the AAD- IR detector is a relatively
good identification sensor. At higher altitudes, it may be
adequate only for detection or general identification,
depending on the type of target. A special ground tesolution
chart is included in Tactical Manual NWP-3-
22.5-F14A/B (NAVAIROl-F14AAA-1T).
The AADJ IR detector is folly roll and roll-rate stabilized
thorn a O0 to 20’ angle of bank in NFOV and O0
to 4O angle of bank in WPOV. Beyond angle-of-bank
hits, a steady bank angle will not seriously degrade IR
imagery. This feature makes it a highly practical sensor
for combat maneuvering situations. Because of varying
scale at the outer edges, the target should be placed
within the center 90” of the format.
The AAD- IR detector can be. reloaded in apptuximately
10 minutes and with the aircmft engines turning.
Thesystemismadeupofseveralmodularsectionsthat
can be replaced rapidly (ii about 15 minutes). Replacement
ofthe entim systemm quiresi n excesso f45 minutes.
22.7.7 Digital Data System. The reconnaissance
pod carries a digital data system that interfaces with the
aircraft inertial navigational system, altimeters, computers,
and standard heading reference system to automatically
control and integratet he reconnaissances ystem.
Reconnaissances ystem control is accomplished by
the data coryerter, Sensor stabilization signals and operating
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F-14D 飞行手册 Flight Manual 3(52)
