TR Missile & Smart Munition Programs

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This is a small step in terms of our WVR air to air missile development but a big step in our air to air missile program. Now we can look forward to a family of missiles and of course a ramjet version as well. They will all come one after the other.
One thing that is bewildering however, is the effective range given for Bozdogan as being 25km. Starting point of this missile was Aim-9X Sidewinder. The US missile is smaller in dimensions and lighter in weight with a top speed of 2.5+ Mach and has a range of 35km. Our missile has a top speed of 4+ Mach. Yet a lower effective range.
Either Tubitak is being too conservative in it’s release of technical specifications, or our missile’s weight and size is hindering it’s overall effective range.
It was discussed in the other forum afaik. The IIR seeker can resist shorter time overheating however it gives better image and engagement. Quality vs quantity. Russian WMRs have longer range while they have worse IR seeker.
İ might be wrong with terms, other members may explain better.
@Cabatli_53 must know.
 

TheInsider

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There are also things like protective coatings which reduces heat gain of IIR seeker through air friction from the lenses. Also cooling system of the seeker (It is an actively cooled IIR seeker)
 

Anmdt

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It was discussed in the other forum afaik. The IIR seeker can resist shorter time overheating however it gives better image and engagement. Quality vs quantity. Russian WMRs have longer range while they have worse IR seeker.
İ might be wrong with terms, other members may explain better.
@Cabatli_53 must know.
The missile have 10-15 seconds of engagement time, so i think IIR missile will be all cool.
This is a small step in terms of our WVR air to air missile development but a big step in our air to air missile program. Now we can look forward to a family of missiles and of course a ramjet version as well. They will all come one after the other.
One thing that is bewildering however, is the effective range given for Bozdogan as being 25km. Starting point of this missile was Aim-9X Sidewinder. The US missile is smaller in dimensions and lighter in weight with a top speed of 2.5+ Mach and has a range of 35km. Our missile has a top speed of 4+ Mach. Yet a lower effective range.
Either Tubitak is being too conservative in it’s release of technical specifications, or our missile’s weight and size is hindering it’s overall effective range.
4+ mach is really something, i hope it will get rear-engagement capability or already has it. Tubitak has been working on control algorithms since pre-2010.
Simsek target drone isn't enough to test its capabilities; but unless TAI has added a hot nose feature, then the missile did really good.
 

Bogeyman 

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President ERDOĞAN Announces Successful Test of BOZDOĞAN WVR Air-to-Air Missile​

The first air launch test of the BOZDOĞAN was completed using an F-16C Block 40 fighter of Turkish Air Force (TurAF) 's 401st Test Squadron Command at the Sinop Missile Test Range located in the Black Sea province of Sinop in northern Turkey. The first air launch of the BOZDOĞAN missile was monitored live by the test measurement equipment at the Sinop Missile Test Range (such as radar systems and high-speed cameras that can measure the missile's trajectory and speed) and by accompanying F-16s (at least one of them was fitted with a SNIPER Targeting Pod). According to the video, the BOZDOĞAN missile was able to lock on its target before launch at an estimated distance of 15km and performed a direct hit to ŞİMŞEK Targeting Drone at 5-8 km. Prior to the live firing test, Turkey declared a NAVTEX on April 5, 2021, for shooting training to be performed at the Black Sea during April 10-18, 2021.

BOZDOĞAN, along with GÖKDOĞAN, another indigenous air-to-air missile with active RF seeker and beyond visual range engagement capability are being developed under the GÖKTUĞ Project run by the TÜBİTAK-SAGE (Defense Industries Research and Development Institute) since 2013. The GÖKDOĞAN and BOZDOĞAN missiles were unveiled during the 13th International Defense Industry Fair (IDEF '17) held in Istanbul in May 2017 and are expected to be ready for serial production in 2021 and 2022, respectively. the Serial Production Phase is expected to be carried out by Roketsan. The short-range air-to-air missile BOZDOĞAN (Merlin) will replace the AIM-9 series Sidewinder missiles in the future. The other missile, GÖKDOĞAN (Peregrine), beyond visual range air-to-air missile, is aimed to replace AIM-120B AMRAAM missiles.

Equipped with a high-resolution dual-color Imaging Infra-Red (IIR) seeker designed and developed by TÜBİTAK-SAGE, with a comprehensive off-boresight capability, along with advanced countermeasures, BOZDOĞAN is a WVR AAM with an effective range of 25km. According to TÜBİTAK SAGE, the BOZDOĞAN missile can travel at a speed of Mach 3. According to technical specs, the BOZDOĞAN has a length of 330cm, a weight of 140kg, and 160mm diameter. Equipped with Aselsan's solid-state, single-source Ku-Band active RF seeker with a mechanical gimbal GÖKDOĞAN BVR AAM, with advanced countermeasure capability and data link update, it has a range of 65km. Powered by solid fuel dual pulse rocket motor GÖKDOĞAN can travel at a speed of Mach 4. BOZDOĞAN is equipped with TVC capability for superior maneuverability and off-boresight launch capability. BOZDOĞAN currently does not feature data link capability, but it is believed that this capability would be gained in the serial production phase. The data link capability, which also adds LOAL (Lock-on After Launch) capability to the missile, will increase BOZDOĞAN's engagement zone that significantly improves the maximum engagement range. Both missiles are powered by smokeless solid propellant rocket motors and will have a High Explosive (HE) warhead with a blast/fragmentation effect and a laser proximity fuse.

Interestingly, the air-launch of the BOZDOĞAN missile was performed from an F-16C Block 40 aircraft, which did not receive avionic upgrades under PO-III and F-16 MSM Projects. The non-modernized F-16C/D Block 30 and Block 40 aircraft are equipped with the older generation mission computer, and source codes of the Operational Flight Program (OFP) that runs on this mission computer were purchased by Turkey many years ago. So it is believed that this version has purposely been preferred, thanks to having source code of mission computer indigenously developed BOZDOĞAN WVR missile can be fully integrated into the aircraft and can be used within its whole flight and engagement envelope. This full integration capability will be beneficial, especially in the GÖKDOĞAN BVR missile. The AIM-120 AMRAAM missile, which GÖKDOĞAN will replace, needs inputs from the AN/APG-68 Fire Control Radar (FCR) during the engagement sequence. According to open sources, the mission computer onboard the launching aircraft programs the missile's autopilot to bring it within a homing basket as it approaches the target. The autopilot can be updated in-flight using a data link info transmitted by the APG-68 radar/antenna. And once within range of the target, the missile activates its active radar seeker. However, when the AIM-120 is launched in the "SLAVE" mode, the missile receives updated target information from the launch aircraft's FCR, which is tracking the target. So in BVR engagement, the AIM-120 receives data directly from the APG-68 FCR. If the missile is launched in the "BORE" mode, the data link is not required because the missile is flying at what it was "pointed" at prior to launch. So for the full integration of GÖKDOĞAN BVR AAMs on F-16, the control capability of the mission computer and OFP will play an important role. Otherwise, the GÖKDOĞAN missile will be operated with limited capability.

Following their introduction at the IDEF '17, both missiles underwent ballistic launches from the ground in 2018. The indigenously developed GÖKDOĞAN (Peregrine) and BOZDOĞAN (Merlin) Air-to-Air Missiles (AAMs) were flight tested from a ground launcher. Ballistic Flight Tests of indigenously developed missiles were successfully carried out at Sinop Missile Test Range during March 24-25, 2018. The Ballistic Test Missile (BTM, without seeker and with self-destruction capability in case of emergency) versions of short- and medium-range GÖKDOĞAN and the long-range BOZDOĞAN were fired at their virtual targets over the Black Sea. These tests were carried out to measure the missiles' solid-fueled rocket motors' performance and were successfully completed.

During the ground test campaign that concluded in late 2019, TÜBİTAK-SAGE also carried out firing tests at moving air targets (Banshee Target Drones flying at around 4km altitude) from stationary ground launchers to test the missiles' command and control, navigation, and flight trajectory capabilities and conducted a series of flight tests with BOZDOĞAN in 2019 within the scope of Flutter Flight test Program. In November and December 2019, Turkey's indigenous BOZDOĞAN Within Visual Range (WVR) and GÖKDOĞAN Beyond Visual Range (BVR) Air-to-Air Missiles were successfully tested against target drones (Banshee). During these guided firing tests, BOZDOĞAN and GÖKDOĞAN missiles that fired from the ground launchpad (imitating F-16 wing) successfully intercepted the target drones (without performing direct hit since the tests were planned as non-explosive shooting test). In 2020 several test flights on 401st Test Squadron Command's F-16s were performed. On November 9, 2020, Minister of Industry and Technology Mustafa VARANK announced that an air-launch test campaign with GÖKTUĞ missiles (BOZDOĞAN and GÖKDOĞAN) would be started at the end of November. And finally, within the scope of the GÖKTUĞ Program, the first-ever air-launch test of the BOZDOĞAN IIR guided WVR missile took place between April 10-13 at Sinop Missile Test Range. Further air-launch tests will be performed with the BOZDOĞAN missile in 2021 for qualification purposes. The missile will enter the serial production phase after the completion of the flight test program in 2021 and the Low-Rate Initial Production (LRIP) is expected to start from 2022 onwards.

TurAF is planning to equip the BOZDOĞAN missile initially on its F-16C/D fighter jets. But the missile is also expected to be integrated on TUSAŞ's Advanced Jet Trainer & Light Attack Aircraft HÜRJET and 5th Generation fighter jet TF-X/MMU.
 

Yasar_TR

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seeker image is not as good as AİM9x
1618484242983.png

Is this what you mean?
 

Test7

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YE

Yeah. I exactly saying that. You can see a only big thermal cloud (?) instead of target drones shape. Probably seeker video is sent with missiles two way datalink which its job is to receive for radar updates. Thats purpose is not to broadcast videos.
IIR-online-video-cuttercom.gif


Each thermal trace appears from afar as a cloud of light. The closer you are, the more detailed they look. I think Bozdogan's image has been zoomed because the details become bigger as they closer. Normally the entire beam had to shrink to one point. The other factor is that the F4 and the SIMSEK target drone cannot have the same thermal trace. These are just ideas. We will see more details in the future.
 
A

Alpagu

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BOZDOĞAN missile fired from aircraft for the first time:
🎯 BOZDOĞAN launched from F-16 for the first time, target aircraft hit
🎯 3 times the speed of sound, high maneuverability
🎯 Will enter the inventory in 2022
 

Yasar_TR

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That was fired from the ground. The new test is the first time it was fired from an aircraft.
Exactly !
The first firing test of Bozdoğan was carried out with it being fired from a stationary ground positioned F16 wing.
That test also proved that we have an effective Sea-RAM missile in hand with a very good range.
So, not just a WVR a2a missile, but, a very good Sea-RAM missile too!
 

Philip the Arab

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Exactly !
The first firing test of Bozdoğan was carried out with it being fired from a stationary ground positioned F16 wing.
That test also proved that we have an effective Sea-RAM missile in hand with a very good range.
So, not just a WVR a2a missile, but, a very good Sea-RAM missile too!
RIM-116 has a bit different guidance but I suppose a modified missile would work.

three modes—passive radio frequency/infrared homing, infrared only, or infrared dual mode enabled (radio frequency and infrared homing)
 

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Turkey’s 1st local medium-range missile engine breaks world record​

BY DAILY SABAH​

ISTANBUL DEFENSE
APR 16, 2021 12:54 PM GMT+3
A screenshot from the video showing the test on TEI-TJ300 engine, April 16, 2021.
A screenshot from the video showing the test on TEI-TJ300 engine, April 16, 2021.



Turkey’s first domestically designed Medium Range Anti-Ship Missile (MRASM) air-breathing engine TEI-TJ300 broke a world record by reaching 1,342 newtons of impulse force with a diameter of 240 mm, the industry and technology minister said Friday.
The turbojet engine, developed within the scope of the Scientific and Technological Research Council of Turkey's (TÜBITAK) Technology and Innovation Support Programs Directorate (TEYDEB) project, reached the impulse within the said diameter, a first in this class.
Mustafa Varank shared the record-breaking test video of the TEI-TJ300 engine on his Twitter account.
The engine is one of the solutions Turkey turned toward to meet its needs locally while maintaining its fight against official or nonofficial embargoes that targeted the country.
The project initially started in 2017, under the coordination of TÜBITAK, Turkish Aerospace Industries’ (TAI) engine producing subsidiary, TUSAŞ Engine Industries (TEI) and leading defense contractor Roketsan, which yielded results far beyond the targeted outcome.


Its best competing engines in the 230-250 mm class produced a maximum impulse of 1,250 newtons with a diameter of 250 mm.
The first prototype of the TJ300 turbojet engine was tested in a ceremony held on June 19 last year with the participation of Varank. The missile engine is capable of operating at speeds of up to 90% of the speed of sound and at an altitude of up to 5,000 feet.
The turbojet engine TJ300 was originally designed to be used in medium-range ship repellent missiles, while with different configurations, it can also be used with several other platforms. TEI-TJ300 engine has the ability to start with wind effect (windmilling) without the need for any starter system (starter motor). This feature enables the platform to be applied to both air, naval and land defense systems.
The mass production process of the engine will begin after the development and qualification tests are completed.



 

Siper>MMU

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Exactly !
The first firing test of Bozdoğan was carried out with it being fired from a stationary ground positioned F16 wing.
That test also proved that we have an effective Sea-RAM missile in hand with a very good range.
So, not just a WVR a2a missile, but, a very good Sea-RAM missile too!
It's claimed by some sources that indigenous RAM missile will be based on Sungur. We should expect a system like Simbad I guess.
 

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