GEe AVIC)NICS .". , ,
.....
/f ~ i
·~).i/·1
.\
.'~ .
.,
."' '!
, , '"
r
. " .~ "~i
'};~
." .. ,'", :\(
~ .. .',
"-,
!; , <'
""r
THE F-S HUOWAC. TACTICAL SUPERIORITY
FOR·THE TIGER. '.
i , . -" "
" ~. l'
THE F-S HUDWAC_ NOW THE PERFORMANCE OF THE F-S WITH
THE ADVANTAGES OF AN ADVANCED HEAD UP DISPLAY/WEAPON AIMING COMPUTER_
Today, fighter aircraft must be prepared to operate in an increasingly sophisticated tactical combat environment.
In both the air-to-air and surface-to-air arena, rapid advancements in technology, especially in electronics and guidance systems, have quickened the pace of avionics obsolescence in a number of highly capable combat aircraft with years of airframe and engine life remaining.
THE FIRST PRODUCTION HEAD UP DISPLAY/ WEAPON AIMING COMPUTER FOR THE NORTHROP F-S TIGER 11, GEC Avionics F-5 HUDWAC is now in production, making it possible for the first time, to combine the excellent performance
and maneuverability ofthe
F-5 with the advantages of an advanced Head Up Display and
. Weapon Aiming Computer. DeSigned to be retro
fitted into all F-5 E and F configurations with no structural modifications t o the airframe, the system is a cost-efficient means of upgrading the aircraft's com bat capabilities in a wide range of tactical sitllations.
THE F-S HUDWAC DECREASES Plwr WORKLOAD WHILE INCREASING WEAPONS DELIVERY ACCURACY. By presenting both flight performance and tactical data within
the pilot's normal field of view, the F-5 HUDWAC increases his situational awareness, thus increasing survivability and improving mission performance.
,. MIL STD 1787 sym-bology is presented in a format which is easy to use, and is tailored to the aircraft's tactical situation. The system's digital computer provides continuously updated, real-time aiming solut' ?nS for a variety of weapon configurations, resulting in significantly improved weapons delivery accuracy.
I n fact, operational demonstrations have revealed dramatic air-to-air superiority over F-5's equipped with existing electro-mechanical sighting systems, while air-to-ground accuracy was improved by a
factor of better than three-to-one.
NAVIGATION, AIR:rD-GROUND AND AIR:rDAIR COMBAT MODES, The F-5 HUDWAC modes are selected automatically, based on the arming switch pOSition. They include Navigation (with a landing sub-mode), Continuously Computed Impact Point (CClP)
and Continuously Computed Release Point (CCRP), for air-to-
ground weapon delivery. Air-to-air modes include Air-to-Air Missile, Lead Computing Optical Sight (LCOS) and Dogfight, a combination of the Missile and Gun modes.
Addit ionally: an "Electronic Bullet" mode allows realistic, effective air-combat training .
. OeJlt/1c1enl)JpoI'l ajfcraft ;wlonks. : ;al .
-P"
A COST-EFFECTIVE SYSTEM DESIGNED FOR RELIABILITY, SUPPORTABILITY, AND GROWTH. The F-5 HUDWAC utilizes technology and hardware derived from GEC Avionics' combat tested, and highly successful. major production Head Up Display programs. Incorporation of these tactically proven electronic components achieves both an improved MTBF and lower overall costs, since the majority of the system's elements are already in production.
F-S ElF HUDWAC TODAY
Engineered for f uture growth, the Electronics Unit is designed to interface w ith existing and future sensors and w ith weapons systems (such as the APG-69 radar or the AI M-9P-4 missile) which might also be added as part of an aircraft modification program. The unit is reprogrammable, easily accommodating new weapon configurations.
Because the HUDWAC increases weapons delivery accuracy, the system also results in lower training costs, as fewer
GROWTH
sorties are needed to maintain pilot proficiency.
GEC AVIONICS, A WORLD LEADER IN HUDWAC TECHNOLOGY, With more than 20 years of Head Up Display experience, GEC Avionics is a world leader in HUD technology. Over 6,000 systems have been produced and deployed in more than 25 different types of combat aircraft around the world, including the F-16, A-4, A-7, A-1O, the Mirage, the Buccaneer and others.
AHRS or LN-33 Inertial Navigation System _ - - --, ,..-----.. Radar AN /APG·69(V)
Central Air Data Comput er _ - --, ,----- .. Line of sight seeker AIM-9L or AIM-9P-4
Radar APQ 153/ 157/1 59 _ --,
Armament Controls _
Landing Gear Control _
MIL 1553B Databus (LN-39)
,----.. Laser Rangefinder
,--" Laser Spot Seeker
___ Radar Altimeter
Instrument Landing Syst em
i Laser INS
~~~~~~~~~~~~
Weapon Data Input
Panel
Electronics Unit
Cont rol Panel '.
Pi lot's Display
Unit
The HUDWAC is compat ible w ith a w ide range of sensor and other avioniclaircraft inputs. It accepts a comprehensive line Of analog, synchro, discret e and digital inputs. Modular construction makes it possible t o design a syst em w hich satisfies the requirements of each aircraft.
CCIP MODE (Continuously Computed Impact Fbint) HUDWAC takes into account actual airspeed, dive angle and G forces from airc",ft sensors to continuously predict
o. I
0.9 301----
weapons impact point. The CCIP pipper 50-=
marks the impact point if bombs were = released at any given Instant. '5~ -~
~ PULL UP ANTICIPATION CUE -
0 .61 MKBZ
~CCIP WEAPON TYPE (TYPICAL)l
MODE
DOGFIGHT MODE Combines Missile mode and two gun modes, CCIL and LCOSS. The symbology includes display of ",nge, closure rate and radar line of sight. as well as cues which define the operational envelope of AIM-9 missiles.
MISSILE BORESIGHT DIAMOND
0 7 08 I ' , +~FLlGHT PATH MARKER
:-3.5
~- :- ,.o
-20
J3~ = --- 5. BOMB FALL LINE
25015 ............... , . ,. ~TARGET ALTITUDE
"'-~WIND DIRECTION VELOCITY
"'-PRESSURE SETTING
rl -----,,---HEADING SCALE 07 I , -,-
<>
o. I
__ TARGET WINGSPAN 30 •
NOTE: RADAR TRACK BOX - 16 .a NOT SHOWN FOR SIMPLICITY
- -16.0 CLOSURE RATE 67 KNOTS
NORMAL ACCELERATION~ _ AIMING RETICLE....-----~ ~o ••
-'~5 5 (TYPICAL)
~ANGE AT 1.0 SEC TIME OF FLIGHT
O"'~RANGE TO TARGET CCIL/// / OGOGFTFT I
\ . . MACH
MODE
\3000 FT RANGE
67 KNOTS CLOSURE RATE
J.
NAV MODE ~"'-....... HEADING (070°)
System automatically selects Navigation '-_ mode when switched on and displays ~PITCH LINES . • ~ M 09 3 non-tactical flight performance informa- . j' I ' I tion Landing sub-mode is automatically ~-'- _TARGET WINGSPAN (30) sele~ted when landing gear is lowered. f,]-'" , 30 = Jo,,-
50:: " ::- ' .5 FLIGHT PATH MARKER GUN BORESIGHT CROSS 45 ~-T -6= ~ -=-'.0 (29° CLIMB 30° BANK)
NORMAL ACCELERATION' ..io~_ '0 ~~ / '. :: ALTITUDE (3000') .
AIRSPEED SCALE (450 TAS) ./::--,/ ~:J,.. 0 .67
MACH .~
MODE/ " " ' -BAROMETRIC PRESSURE
< GEC Avionics Ine. 2975 Northwoods Parkway INorcross PO. Box 81999 Atlanta. Georgia, USA 30366 Telephone (404) 448-1947 Telex: 708447 TWX: 810-757-4257
GEC Avionics Ltd. Airborne Display Division Airport Works Rochester. Kent MEl 2XX, England Telephone: Medway (06~4) 44400 Telex: 96304
~fopyright 1985. GEC Avionic,; 'lnc:., , PuBlicat)on No, PL 4779, r. ',' GEC Avionics is an affiliate of the ' General EI~ctric Company. p.le. of England. Tiger II is a trademark of the Northrop Corporation,
GEC AVIC)NICS ":hiS brochure is intended only to give a general impressIon of the products and servkes which are available and nOlle of the descriptions contained herein shall form part ofai\y.contfaCt From time to time changes may ~ made in the product(sj or in the conditions of supply. , ' _
Top Related