Info About the Weapons... Volume - 2... From "Kofana"...
AGM-65B Maverick... Seeker : TV with magnification, Speed : Mach 0.65 Length : 8 ft 2 in, Weight : 464 lb, Warhead :
125 lb shaped charge, Range : 0.6 to 14 miles, Drag factor : 46... The Maverick is a "fire and forget" air-to-ground
missile, enabling the pilot to seek other targets or leave the area once the missile is launched. The AGM-65B model uses
a TV-imaging seeker with scene magnification to allow the pilot to acquire targets from a greater distance. The Maverick
employs a high-explosive shaped-charge warhead effective against tanks, trains and other vehicles.
AGM-65D Maverick... Seeker : Imaging infrared, Speed : Mach 0.65, Length : 8 ft 2 in, Weight : 500 lb, Warhead :
125 lb shaped charge, Range : 0.6 to 14 miles, Drag factor : 46... The AGM-65D model seeker has an imaging infrared seeker
which allows target acquisition at night and also helps cut through smoke and dust in the daytime. In addition, the -65D
employs a new lower-smoke motor.
AGM-45A Shrike... Seeker : Passive radar, Length : 10 ft, Weight : 395 lb, Warhead : 145 lb fragmentation, Range :
12 miles, Drag factor : 40... The AGM-45A Shrike is an anti-radiation missile effective against continuous wave /CW/ radar
emitters. These include all enemy air defense radar systems except the SA-8 Grecko. While the F-16 lacks the avionic
systems to be a true Wild Weasel platform, you may be asked to perform this mission anyway.
AGM-84D HARPOON... Primary function : Air-to-surface anti-ship missile, Contractor : McDonnell Douglas, Power plant :
Teledyne Turbojet, Thrust : 660 pounds, Length : 12 ft 7 in, Weight : 1,145 lb, Diameter : 13.5 in, Wing span : 3 ft, Range :
Over the horizon, Speed : High subsonic, Guidance system : Sea-skimming cruise using radar altimeter; active radar terminal
homing, Warheads : Penetrating high-explosive (488 lb)... The AGM-84D Harpoon is an all-weather, over-the-horizon, anti-ship
missile system produced by McDonnell Douglas. Its low-level, sea-skimming cruise trajectory, active radar guidance, and
warhead design assure high survivability and effectiveness. Originally developed for the Navy to serve as its basic
anti-ship missile for fleetwide use, the AGM-84D Harpoon also has been adapted for use on Air Combat Command's B-52G
bombers. The 42nd Bombardment Wing, Loring Air Force Base, Maine, was first tasked to perform the Harpoon mission in
1985. The wing refined tactics and doctrine to merge the long-range, heavy-payload capability of the B-52 with the proven
reliability of this superior stand-off attack weapon. These combine to provide the war-fighting capability to interdict
ships at ranges well beyond those of other aircraft.
AGM-88A HARM... Seeker : Passive radar, Length : 13 ft 9 in, Weight : 807 lb, Warhead : 145 lb fragmentation, Range :
30 miles, Drag factor : 46... The AGM-88A HARM /High Speed Anti-Radiation Missile/ is an upgrade of the Shrike. Towards the
end of the Vietnam War, enemy radar operators learned to turn off the radar when they detected a Shrike missile launch. The
HARM was developed with a much higher speed and range so it could hit a radar source without warning. It also has a better
target acquisition system that is effective against both CW and pulse-dopppler radar. Both the enemy SA-8 Gecko and the
allied Roland SAM systems use pulse-doppler radar.
AGM-119 Penguin Anti-Ship Missile... Contractor : Kongsberg Vaapenfabrikk (Norway), Power plant : Solid propellant
rocket motor and solid propellant booster, Length : 120.48 in (3.06 m), Launch weight : 847 pounds (385 kg), Diameter :
11.2 in (28.45 cm), Wing span : 30 in's folded, 55 in's deployed, Range : 25 NM / 35 km, Speed : 1.2 Mach, Guidance :
Inertial and infrared terminal, Warhead : 265 lb gross, 110 lb high explosive, semi armor piercing. The Penguin is a
helicopter launched anti-ship missile developed for use on Lamps III helicopters and NATO allies. Penguin is the only
operational Navy helicopter-launched missile in the Navy's weapon inventory. It provides Navy surface combatants with a
defense against surface threats armed with antiship missiles. Navy testing of Penguin has been completed, and it achieved
IOC in the fourth quarter of FY 1993. All Block I modified SH-60Bs will be capable of employing Penguin, and eventually
all SH-60Bs. The Navy will acquire approximately 100 Mod 3 versions. A principal operational advantage of Penguin is its
relatively long operational range, which permits a helicopter armed with Penguin to remain outside the launch envelopes
of potential targets. The Penguin missile has an indirect flight path to target. It is also operated in "fire-and-forget"
mode to allow multiple target aqusition. The Penguin is fired from a launcher or a stage weighin approximately 1100 pounds
(500 kilograms). The Penguin was developed by and for the Norwegian Navy. The Penguin anti-ship missile was conceived in
the early 1960's as a ship-borne, anti-invasion defence system. Penguin was the first fire-and-forget anti-ship missile
system to be developed in the Western world. Penguin MKI became operational with the Norwegian and Turkish navies in 1972.
The MK2 entered service in 1980 with the Norwegian, Hellenic and Swedish navies. Since then, continuous development
programs have adapted the concept to the technical evolution of surface warfare. The air-launched penguin MK3 version
(AGM-119A) is chosen as the standard anti-ship missile for the F-16 Fighting Falcons of the Royal Norwegian Air Force and
has completed a highly successful Foreign Weapon Evaluation Program conducted by the US Air Force. The Penguin MK2 MOD7
(AGM-119B) with folding wings is adapted to the US Navy LAMPS Mk III, SH-60B helicopters. The Penguin missiles are designed
and manufactured by Norsk Forsvarsteknologi (NFT). Penguin is a fully digitized missile with canard control. The high
resolution, passive infrared seeker provides a high degree of discrimination and target selection, and ensures efficient
operation in confined, as well as open waters. The high accuracy, inertial navigation system ensures the missile's capability
of target detection, and provides the flexibility of mid-course trajectory via pilot-designated way-point. An efficient 120
kg warhead, with an impact point close to the target's waterline, will inflict serious damage to medium size surface
combatants or other targets. The missile is powered by a solid propellant two stage rocket motor. The Penguin can be
adapted to helicopters, fixed wing patrol aircraft as well as fighter aircraft. The missile system is software integrated
into the aircraft avionic system. with the use of existing equipment for suspension, control and operation. The National
Defense Authorization Act for Fiscal Year 1997 contained a provision that authorized the Navy to enter into a contract for
multiyear procurement of not more than 106 Penguin missiles and limited the amount that could be expended for such procurement
to $84.8 million. This provision was based on the existing shortfall in Penguin missile inventory and the premise that the
Navy would be able to negotiate a very favorable price at around 55 percent of the average unit procurement cost for previous
lots. Congress subsequently appropriated $7.0 million to procure Penguin missiles in fiscal year 1997 and $7.5 million in
fiscal year 1998.
AGM-136 Tacit Rainbow... Span : 5 ft 2 in, Length : 8 ft 4 in, Body diameter : 2 ft 3 in, Weight : 430 lbs. Armament :
WDU-30/B 40 lb, blast fragmentation warhead, Engine : Williams International F121 turbofan of 70 lb thrust, Cost : $200,000
(estimated production version), Cruising speed : Subsonic, Range : Air-launched = "more than 50 miles", ground-launched =
430 kilometers. Tacit Rainbow was a project to develop a jet-powered "mini" drone for finding and destroying enemy ground
based radars. Designated AGM-136A by the Air Force, the Tacit Rainbow could be carried to target striking distance and
air-launched by bombers or fighters, or launched from ground systems. Each vehicle was preprogrammed for a designated
target area using the on-board computer and flight control system. Once launched, AGM-136A flew a preprogrammed course
to its target area and "loitered" until it detected transmissions from an enemy radar. Once a radar source is detected
and identified, the UAV homed in to destroy it. Unlike other anti-radiation missiles, Tacit Rainbow could not be "fooled"
if the radar was turned off to avoid being hit. As long as fuel remained, it could wait and reattack that or another radar
when operation resumed. The Tacit Rainbow unmanned aerial vehicle (UAV) was conceived in the early 1980s using experience
gained with anti-radar missiles in Vietnam. Its purpose was to supplement manned aircraft in striking enemy air defenses.
The vehicle was designed for low cost production so that it could be used in "swarms" against dense enemy air defense
networks. The Naval Research Advisory Committee (NRAC) 1989 Summer Study on "Defense Suppression in the Year 2000"
recommended the development a family of decoys (that is inexpensive, realistic, modular, easy to carry onboard strike
aircraft and carrier compatible, including a lethal version) for use in conjunction with strike operations to saturate
the enemy IADS, and noted that Tacit Rainbow did not meet these requirements. The first Tacit Rainbow air-launch occurred
on July 30, 1984. More than 30 test launches were made, from both bombers and fighters. The MLRS launcher was also used
for the Ground Launched Tacit Rainbow. On 21 March 1989 the Acting Secretary of the Air Force notified the Congress that
the current program acquisition unit cost of the Tacit Rainbow program had increased by more than 15 percent, and on 23
May 1989 notification was provided that the Tacit Rainbow Program has exceeded its baseline unit cost by more than 15
percent. Procurement funding for the Tacit Rainbow missile was deferred by the Congress in October 1989, pending successful
completion of operational testing. The next year's budget request for Fiscal Year 1991 contained $9.759 million to continue
development of Tacit Rainbow anti-radiation cruise missile. The budget request also contained $227.4 million for procurement.
Subsequently, the Air Force formally informed the Congress that an additional $27.0 million would be required in research and
development funding because of delays in the program. The House authorized $26.759 million for research and development,
endorsing the increase in funding requested by the Air Force. The House also provided $59.5 million for procurement, which
was earmarked in the budget request for facilitating the factory of the follow-on competitor for the Tacit Rainbow program.
The House restricted the obligation of the $59.5 million until the Secretary of the Air Force submitted a report evaluating
the cost effectiveness of proceeding with two production contractors for the Tacit Rainbow program. The Senate authorized
$36.759 million for research and development, and authorized the procurement funds as requested. The conferees recommend
an authorization of $36.759 million for research and development and $59.5 million for advance procurement and agreed to
the legislative provisions proposed by the House. The ground-launched version of the nonnuclear TACIT RAINBOW ALCM had a
design range of only 430 kilometers, and was therefore well below the newly agreed START threshold of 600 kilometer range
for counting ALCMs. Tacit Rainbow was a purely conventional system and there were no plans to equip it with nuclear
warheads; therefore, the 1990 Strategic Arms Reduction Treaty [START] agreement did not have any effect on the US ability
to employ it. The Soviet effort to capture Tacit Rainbow was part of their overall effort in START to try to constrain US
conventional programs. The ALCM range issue in the START negotiations was a question of what range would mark the threshold
between short-range systems not limited by START in any way and long-range nuclear ALCMs which would be covered by START.
The US concern on ALCM range was above all to protect US conventional options. Since future non-nuclear ALCMs like Tacit
Rainbow will not be limited by START if they are externally distinguishable from nuclear ALCMs, the US accepted the 600
kilometer range threshold in START. As a result of its tough negotiating on this provision, the United States gained
concessions which eased the way for the deployment of new conventionally armed cruise missiles such as the highly accurate
Tacit Rainbow. Secretary of State Baker agreed to constrain US military programs in a so-called `side letter' to the
proposed START framework statement in which the United States agreed not to modernize the Tacit Rainbow ALCM, and also
not to equip this ALCM with a nuclear warhead. This letter informed the Soviets of the fact that the US had no plans to
convert the non-nuclear Tacit Rainbow ALCM to a nuclear ALCM. In October 1990 Air Force investigators looking into
mismangement at Northrop concluded that many of the expensive weapons systems built by that contractor -- including the
B-2, the Tacit Rainbow anti-radar missile, the F-15's jamming system, the guidance system for the MX missile -- were
riddled with fraud and performance defects. The program was cancelled for budget reasons in 1991, prior to the planned
start of production in 1992. During the previous two decades, only two programs were cancelled after full scale testing
had commenced and before a substantial amount of serial production: the Army's DIVAD gun (the Sergeant york), and the
Tacit Rainbow missile.
AGM-137 Tri-Service Standoff Attack Missile TSSAM... In 1986, the Air Force began developing TSSAM to provide a low
observable conventional cruise missile. Key characteristics included long-range, autonomous guidance, automatic target
recognition, and precision accuracy with a warhead able to destroy a well-protected structure. The Tri-Service Standoff
Attack Missile (TSSAM) was a joint service program with the Air Force as the lead service. The program objective was to
develop a family of highly survivable, conventional, stealthy cruise missiles to satisfy tri-service requirements to
effectively engage a variety of high value land and sea targets. The technical approach to develop a modular stealth
cruise missile which can employ several payloads and guidance systems to engage the required targets. All variants used
a GPS aided inertial navigation system. The Navy and Air Force (unitary variant) missiles used an imaging infrared terminal
sensor for autonomous recognition and homing on fixed land targets and sea targets. The other Air Force variant contained
the Combined Effects Bomblet (CEB) submunition to attack land targets. Integration efforts were planned for the Air Force’s
B-52H, F-16C/D, B-1 and B-2 and the Navy’s F/A-18C/D. TSSAM was touted as the most silver of bullets because of its low
observability capability. Northrop Aircraft Division's cost/schedule control system did not provide the Government with
reliable data and the data was not promptly submitted; therefore, the Joint System Program Office could not effectively
measure the contractor's performance or use the cost data to make informed management decisions. Management of TSSAM
Program funds was fragmented among the three Military Departments, resulting in an awkward budgeting process, funding
shortfalls, and delays in program and contracting decisions. The system had significant development problems, and estimates
of the unit cost in production were unacceptably high. That made it a logical candidate for cancellation. After the TSSAM
procurement unit cost increased from an estimated $728,000 in 1986 to $2,062,000 in 1994 (then-year dollars), the Department
of Defense (DOD) terminated the program. On 09 December 1994 the Secretary of Defense announced cancellation of the TSSAM
program. DEPSECDEF Program Decision Memorandum (PDM) IV, 16 Dec 94, canceled the TSSAM and associated contracts. Many TSSAM
program specifics remain SECRET -Special Access Required per the 31 March 1993 Program Security Guide. Following a comprehensive
reassessment of force requirements, the Air Force and Navy agreed they urgently needed an affordable missile with most of
TSSAM's characteristics. They proposed a joint program that would build upon the lessons learned from TSSAM and more recent
programs that use new acquisition approaches. On September 20, 1995, the Principal Deputy Under Secretary of Defense for
Acquisition and Technology approved the initiation of the JASSM program, under Air Force leadership. The publicly released
retouched photo of TSSAM revealed the vehicle's stealthy shape, but little of engine ports or sensors.
AGM-154A Joint Standoff Weapon (JSOW9... The AGM-154A Joint Standoff Weapon or JSOW is currently under development
by Raytheon [Texas Instruments] for the Air Force and the Navy. The AGM-154A (Formerly Advanced Interdiction Weapon System)
is intended to provide a low cost, highly lethal glide weapon with a standoff capability. JSOW family of kinematically
efficient, air-to-surface glide weapons, in the 1,000-lb class, provides standoff capabilities from 15 nautical miles
(low altitude launch) to 40 nautical miles (high altitude launch). The JSOW will be used against a variety of land and
sea targets and will operate from ranges outside enemy point defenses. The JSOW is a launch and leave weapon that employs
a tightly coupled Global Positioning System (GPS)/Inertial Navigation System (INS), and is capable of day/night and adverse
weather operations. The JSOW uses inertial and global positioning system for midcourse navigation and imaging infra-red and
datalink for terminal homing. The JSOW is just over 13 feet in length and weighs between 1000-1500 pounds. Extra flexibility
has been engineered into the AGM-154A by its modular design, which allows several different submunitions, unitary warheads,
or non-lethal payloads to be carried. The JSOW will be delivered in three variants, each of which uses a common air vehicle,
or truck, while substituting various payloads.
AGM-154A (Baseline JSOW)... The warhead of the AGM-154A consists of 145 BLU-97/B submunitions. Each bomblet is
designed for multi-target in one payload. The bomblets have a shaped charge for armor defeat capability, a fragmenting
case for material destruction, and a zirconium ring for incendiary effects. AGM-154B (Anti-Armor) The warhead for the
AGM-154B is the BLU-108/B from the Air Force's Sensor Fuzed Weapon (SFW) program. The JSOW will carry six BLU-108/B
submunitions. Each submunition releases four projectiles (total of 24 per weapons) that use infrared sensors to detect
targets. Upon detection, the projectile detonates, creating an explosively formed, shaped charge capable of penetrating
reinforced armor targets. Texas Instruments (TI) Defense Systems & Electronics (DS&E) began Engineering and Manufacturing
Development (E&MD) of JSOW in 1992. In December 1995, the Navy and Texas Instruments completed Development Test IIB (DT-IIB)
at the Naval Air Weapon Center, (NAWC) China Lake and Point Mugu, California, with 10 for 11 successful flights of the
AGM-154A BLU-97 dispenser variant. On January 6, 1997, it was announced that Texas Instruments Defense Systems &
Electronics was being purchased by Raytheon Company, Lexington, Massachusetts. The U.S. Navy began Operational Evaluation
(OPEVAL) testing in February 1997, after successful development testing and initial operational testing programs. The test
program resulted in a 42 for 44 success rate or greater than 96% successful JSOW launches. The Air Force began Development
Test & Evaluation (DT&E) flight testing of JSOW on the F-16 at Eglin Air Force Base, Florida, in March 1996. Air Force
testing of the baseline JSOW was hindered by less than desired progress in the area of F-16/JSOW integration. AGM-154A
(Baseline variant) system entered Low Rate Initial Production (LRIP) on schedule. The $65.9 million LRIP contract was
awarded by the Naval Air Systems Command (NAVAIR), in Arlington, Virginia, for 111 JSOW AGM-154A/baseline systems. LRIP
for the other two variants are scheduled for FY99 and FY00, respectively. On 29 December 1998 Raytheon Systems was awarded
a $133,881,355 firm-fixed-price contract to provide funding for the Full Rate Production Lot 1 of JSOW AGM-154A and the
Low Rate Initial Production Lot I of the JSOW AGM-154B (AGM-154A: Navy - 328 and Air Force - 75) (AGM-154B: Navy - 3 and
Air Force - 21). Work is expected to be completed by March 2001. JSOW test articles were deployed in 1997 aboard the USS
Nimitz and are currently deployed on the USS Eisenhower. JSOW initial introduction to the operational commands was on the
Navy/Marine Corps F/A-18 in mid-1998. As of late 1997 a number of remaining JSOW test assets were on an interim deployment
for further operational evaluation. USS Carl Vinson 's air wing first employed the JSOW during combat over southern Iraq on
Jan. 25, 1999. On 29 December 1999 Raytheon Systems Company, Tucson, Ariz., was awarded a $109,573,867 modification to
previously awarded contract N00019-99-C-1014 to exercise an option for the full rate production Lot 2 of the Joint Standoff
Weapon AGM-154A for the U.S. Navy (414) and U.S. Air Force (74). Work will be performed in Tucson, Ariz., and was expected
to be completed by March 2002. Weapon planning will be accomplished using the Navy's Tactical Automated Mission Planning
System (TAMPS) and the Air Force Mission Support System (AFMSS). Aircraft-to-weapon communications will be via the
MIL-STD-1760 interface, making inflight programming/targeting possible, as well as preflight data loading. The weapon will
be deployed from both carrier- and land-based aircraft, employing insensitive munitions technology. The JSOW will be
employed on the following aircraft: F/A-18A/B, C/D, and E/F; AV-8B; F-14A/B and /D; F-16C/D; F-15E; F-117; B-1B; and B-52.
AGM-158 Joint Air to Surface Standoff Missile (JASSM)... The Air Force/Navy Joint Air to Surface Standoff Missile
(JASSM) program was established in the fiscal year 1996 budget, following cancellation of the Tri-Service Stand-off
Attack Missile (TSSAM), to develop a replacement for that system at the earliest possible date. In light of the urgent
need for the operational capability that would have been provided by the TSSAM, the Secretary of Defense established a
joint program in the Air Force and the Navy for development of a replacement for TSSAM, canceled for escalating program
cost, that would meet the requirements of both services. After the termination of the TSSAM, the Services continued to
reiterate the need for a high survivability standoff weapon capable of attacking a variety of deep interdiction type
targets. The Joint Requirements Oversight Council revalidated the need for the weapon in an August 1995 mission need
statement. JASSM is a precision cruise missile designed for launch from outside area defenses to kill hard, medium-hardened,
soft, and area type targets. The threshold integration aircraft are the F-16, B-52, and F/A-18 E/F, and the airframe design
is compatible with all JASSM launch platforms: the B-52H, F-16C/D, F/A-18E/F, F-15E, F-117, B-1B, B-2, P-3C and S-3B. The
weapon is required to attack both fixed and relocatable targets at ranges beyond enemy air defenses. After launch, it will
be able to fly autonomously over a low-level, circuitous route to the area of a target, where an autonomous terminal guidance
system will guide the missile in for a direct hit. The key performance parameters for the system are Missile Mission
Effectiveness, range, and carrier operability. JASSM's midcourse guidance is provided by a Global Positioning System
(GPS)-aided inertial navigation system (INS) protected by a new high, anti-jam GPS null steering antenna system. In the
terminal phase, JASSM is guided by an imaging infrared seeker and a general pattern match-autonomous target recognition
system that provides aimpoint detection, tracking and strike. It also offers growth potential for different warheads and
seekers, and for extended range. Initially, the program entertained proposals from seven contractors. The build-up to the
Request for Proposal release was a period of intense interaction between all contractors and the government team. A
24-month JASSM Program Definition and Risk Reduction contract was awarded to McDonnell Douglas by the Department of
Defense on June 17, 1996. A downselect to one contractor for the engineering and manufacturing development and full-rate
production phases occured in April 1998 with the selection of Lockheed-Martin. The Navy has proposed to replace the joint
program for JASSM with the Navy's SLAM-ER, prior to completion of the current program definition and risk reduction phase
for JASSM. The proposal is one of the program alternatives that may be considered at the Milestone II review for entry of
the JASSM program into engineering and manufacturing development in July 1998, which will evaluate the technical progress
in the program and risk reduction phase, cost and operational effectiveness analysis, and other factors. Low-rate initial
production decision for JASSM is in the year 2000, with full-scale production scheduled to run from 2002 to 2009. Total
missile production for the U.S. Air Force is expected to be 2,400 missiles; the total for the U.S. Navy is yet to be
determined. The total program is valued at approximately $3 billion.