What's new

Japan Making Its F-2 Fighter Fleet More Lethal

BordoEnes

SENIOR MEMBER
Joined
Apr 29, 2011
Messages
3,752
Reaction score
0
Country
Turkey
Location
Netherlands
In a move destined to give Japanese defense manufacturers hope for the future, Aviation Week reported in late February that Japan plans to upgrade 60 F-2 fighters with Mitsubishi Electric Corporation’s AAM-4B missile, a $468 million deal. This enhancement is expected to dramatically improve the lethality of the F-2 when engaging enemy aircraft.

A number of Japan’s Boeing F-15J fighter aircraft were equipped with AAM-4 missiles in 2007. This version of the missile featured an advanced active radar seeker and integrated data link that allowed the pilot to fire and guide the missile to the target until the missile seeker took over allowing the aircraft to begin evasive maneuvers much earlier than in the past.



This deal will go far in helping Japan’s struggling aviation/military industry to continue operating in an environment of intense competition from international rivals.

The AAM-4B is fitted with a missile seeker featuring Active Electronically-Scanned Array (AESA) radar and a greatly improved data link. The AAM-4B will be coupled with enhanced J/APG-2 radar that gives pilots a detection range far superior to what they have now. Analysts believe that the AAM-4B will be deployed as a replacement for the Mitsubishi Electric license- built AIM-7F/M Sparrow’s now in service, a missile that was still in production as late as 2010.

With the AAM-4B’s active search capability, coupled to an upgraded J/APG-2 radar system, modified F-2’s are expected to be able to engage multiple airborne targets from medium range without having to close to visual range, greatly improving the aircraft’s survivability and deadliness.

The AAM-4B is reported to be the same size as the AIM-7F/M Sparrow missile, but its AESA radar seeker head will provide an active homing capability and after launch target lock affording pilots the flexibility to begin evasive maneuvers or focus on other threats sooner than is now possible.

By incorporating AESA capabilities into the AAM-4B, it seems possible that Japan has designed a uniquely capable air-to-air missile. While most front-line fighters of today are outfitted with AESA, no known air-to-air missiles are similarly equipped.

In the 1980s, Japan began development work on the AAM-4, partly as a means of bolstering Japan’s domestic arm’s manufacturers and to expand the nation’s missile technology capability. It is not known if the early AAM-4’s ever entered active service.

In the early stages of planning and development, Japan’s Defense Ministry’s Technical Research and Development Institute indicated that the AAM-4B could be launched from a far greater distance than the AAM-4, an increase in range of as much as 20 percent. The Institute also stated that activation of the AAM-4B’s autonomous guidance system would be possible from a range 40 percent greater than that possible with the AIM-120B AMRAAM. Also, the AAM-4B was reportedly designed to match or outperform the Russian AA-12 Adder. The enhanced performance of the AAM-4B is claimed to be partly the result of an increase in the level of power transmission incorporated in the AESA.

It is expected that a modified F-2 launching AAM-4Bs would be able to discontinue tracking a target much earlier and from a greater distance than can be achieved with an unmodified F-2. With the missile’s improved autonomous guidance system giving the aircraft extended firing range, the pilot will be able to target, fire, and execute evasive maneuvers sooner than is now possible. The upgraded AESA is also believed to improve the F-2’s ability to locate, track, and target “crossing targets,” a scenario where an air threat is flying at a right angle creating a signal of the same frequency as that of the ground.

No information has been provided to indicate how the AAM-4B compares with Raytheon’s AIM-120D AMRAAM. Some sources have expressed the opinion that the AIM-4B’s performance will hinge on the level of technology incorporated into the control and guidance systems and may not match the performance of Raytheon’s AIM-120C-7 variant, a missile that is eligible for export.

Japan also has an inventory of Raytheon AIM-120 AMRAAMS available for use. Japanese corporate heavyweights, Mitsubishi Heavy Industries and Mitsubishi Electric, also had a hand in the design and development of the AAM-4B. Mitsubishi Heavy managed the missile integration phase of the project and Mitsubishi Electric focused on upgrading the radar systems. Japan’s Ministry of Defense reported that development was completed successfully.

It is not known how many, if any, operating F-2’s are presently equipped to carry the AAM-4B, but Japan’s FY2012 budget submission does include funding for radar upgrades for 40 aircraft and fire-control upgrades for 16 aircraft. Funding for the AAM-4B enhancements for 60 aircraft is expected to appear in future budget submissions, possibly to coincide with extensive maintenance plans.

Japan’s Ministry of Defense also confirmed that the modified F-2’s will be capable of launching and coordinating several missiles aimed at more than one target simultaneously. The Ministry would not reveal the exact number of targets that may be fired upon at the same time, but the modified F-2’s will be configured to mount four AAM-4B’s.

Operational F-2’s are already equipped with AESA and the modified F-2’s will be similarly equipped. Comparable aircraft fitted with AESA employ a data link that transmits signals from the aircraft to an airborne missile using radar. The modified F-2’s will be outfitted with a separate data link transmitter, the J/ARG-1.

Additional guidance system modifications will include upgrading the existing J/APG-1 AESA radar to a J/APG-2 standard. The J/APG-2 is expected to maximize the capabilities of the AAM-4B by allowing for target detection at much longer ranges and to increase the probabilities of scoring a hit. The J/APG-2 is known to be capable of generating significantly greater power and incorporates a signal processor that is faster and more reliable. Japanese officials remain secretive regarding the specific J/APG-2 capabilities and have stated that they have not made any comparison with foreign-built radar systems. Some sources speculate that the J/APG-2 might be comparable to Raytheon’s APG-79 carried on US F/A-18E/F Super Hornets.

The upgraded F-2’s are a critical part of Japan’s air defense system and can be expected to continue in an operational flying status, alongside Japan’s existing fleet of F-15J’s, for many years to come. It is still uncertain if Japan will continue with its plans to acquire the Lockheed Martin F-35 Joint Strike Fighters or if they will select a competing aircraft to beef-up their air fleet. What is known, with production of the F-2 now completed and discontinued, is that Japan is looking at a future that is getting ever more dangerous by the day.

AIR_F-2s.jpg

JSDAF Mitsubishi F-2 fighters will receive the high performance AAM-4 missile as part of a major upgrade program. Photo: JSDAF
 
.
The Mitsubishi AAM-4 (Type 99 air-to-air missile, 99式空対空誘導弾 (99 Shiki Kūtaikū Yūdōdan?)) is a medium-range active radar-guided air-to-air missile developed in Japan and intended to replace the semi-active radar homing AIM-7 Sparrow missile in service. It has been operational since 1999.
Length: 3,667 mm
Diameter: 203 mm
Wing span: 800 mm
Weight: 222 kg
Guidance: data link + active radar
Range: 100 km (AAM-4), 120km (AAM-4B)
Speed: Mach 4 - 5

250px-AAM-4.jpg


Courtesy of Wikipedia
 
. .
You can't beat the Japanese when it comes to Tech!!
 
. .
What is more interesting is the idea of an AESA seeker for a missile.
How did they fit all the cooling for it in that diameter is a marvel.
An AESA seeker would be able to track targets no matter what evasive maneuvers are in progress.. and coupled with ECCM be immune to any countermeasures.
Possibly looking at a 99% Pk unless something goes wrong with the missile itself.
 
. .
What is more interesting is the idea of an AESA seeker for a missile.
How did they fit all the cooling for it in that diameter is a marvel.
An AESA seeker would be able to track targets no matter what evasive maneuvers are in progress.. and coupled with ECCM be immune to any countermeasures.
Possibly looking at a 99% Pk unless something goes wrong with the missile itself.
It would be ingenious but not exactly marvelous. The main problems with an AESA system are with cumulative heat and duration. A missile's mission does not have those two requirements as top priorities. As long as there is sufficient cooling -- ram air or a small amount of gas like freon -- just to keep the T/R modules right below the failure threshold for just long enough...
 
.
It would be ingenious but not exactly marvelous. The main problems with an AESA system are with cumulative heat and duration. A missile's mission does not have those two requirements as top priorities. As long as there is sufficient cooling -- ram air or a small amount of gas like freon -- just to keep the T/R modules right below the failure threshold for just long enough...

A few seconds really. However, it is not true that the AESA seeker head is immune to cranking. There are limits to the angles the AESA seeker can cover, still however, it is a welcomed step forward.
 
.
What is more interesting is the idea of an AESA seeker for a missile.
How did they fit all the cooling for it in that diameter is a marvel.
An AESA seeker would be able to track targets no matter what evasive maneuvers are in progress.. and coupled with ECCM be immune to any countermeasures.
Possibly looking at a 99% Pk unless something goes wrong with the missile itself.

It would be ingenious but not exactly marvelous. The main problems with an AESA system are with cumulative heat and duration. A missile's mission does not have those two requirements as top priorities. As long as there is sufficient cooling -- ram air or a small amount of gas like freon -- just to keep the T/R modules right below the failure threshold for just long enough...

Cooling the electronics is already a problem with these missiles.
Liquid nitrogen or even argon bulbs are used for the purpose.
 
.
i do not understand why japan and India not working side by side to eliminate our common threat ?hopefully things will change in future.
 
. .
i do not understand why japan and India not working side by side to eliminate our common threat ?hopefully things will change in future.

You cannot mix **** with caviar. China and Japan have more in common than India and Japan given that Chinese and Japanese have similar physical characteristics and cultural afinities. You would hardly distinguish a Chinese with a Japanese. On the other hand put an Indian with a Japanese, you could see the difference thousand miles away. However due to the atrocities committed by Japanese Imperial War crimnals in China and the fact that the US have prevented Japan to formally apologize in view of antagonizing both countries and also to implement the divide and rule policy, China and Japan are now enemies thanks to the US war criminals' neo colonialism policy in Asia.
 
. .
You cannot mix **** with caviar. China and Japan have more in common than India and Japan given that Chinese and Japanese have similar physical characteristics and cultural afinities. You would hardly distinguish a Chinese with a Japanese. On the other hand put an Indian with a Japanese, you could see the difference thousand miles away. However due to the atrocities committed by Japanese Imperial War crimnals in China and the fact that the US have prevented Japan to formally apologize in view of antagonizing both countries and also to implement the divide and rule policy, China and Japan are now enemies thanks to the US war criminals' neo colonialism policy in Asia.

Are you contradicting urself here??
 
.
Back
Top Bottom