TR UAV/UCAV Programs | Anka - series | Kızılelma | TB - series

begturan

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Would it be an advantage if she carried two flirs? Two opperators would be observe the area!
 

Tuvan

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Would it be an advantage if she carried two flirs? Two opperators would be observe the area!



Maybe WAMI (Wide-Area Motion Imagery), WAPS (Wide-Area Persistent Imagery) like capability similar to Gorgon Stare program in development.
 

IC3M@N FX

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I have a preliminary check of what the Kizilelma PT3 drone is likely to have installed.

Engine:
Ivchenko Progress AI322-30F Technical specifications:


Type: Two-stage low-bypass turbofan

Length: 1,960 mm

Diameter: 640 mm

Weight: 440 kg (without afterburner), 560 kg (with afterburner)

Thrust:

2,500 kgf (24.5 kN) without afterburner

4,200 kgf (41.2 kN) with afterburner

Bypass ratio: 1.19:1

Pressure ratio: 15.43:1

Fuel consumption:

0.66 kg/kgf/h without afterburner

1.9 kg/kgf/h with afterburner

Thrust-to-weight ratio:

5.68 (without afterburner)

7.5 (with afterburner)

Expected thrust ratio in the Kizilelma PT3 drone with AI322-30F engine: 0.7

Will be replaced in the long term with the TEI TF-6000/10000 engine with a thrust ratio of 0.8

Kizilelma C with double engine, which is probably planned as the final version of the drone, would probably have a thrust ratio of 1.2-1.3



Radar: MURAD 200A AESA radar

Technical specifications:


Frequency band: X-Band

Transmit/receive modules: Over 1000 individual modules

Power per module: Standard 20 W, maximum 30 W

Total pulse power: 23 kW as standard, maximum 34.5 kW

Cooling: Liquid-cooled

Functions:

Air-to-air modes: long-range search, multi-target tracking, interphase guidance, weather detection, aerial combat maneuvers

Air-to-ground modes: strip SAR, point SAR, terrain mapping, moving ground target detection and tracking, maritime search and ISAR, air-to-ground ranging, Doppler beam sharpening, automatic altitude determination

Additional capabilities:

Multifunctional radar with simultaneous air-to-air and air-to-ground operations

Non-cooperative target identification

Automatic target recognition

Interference immunity

Electronic support and attack capabilities



Electro Optical Sensor System (ETOS):
ASELSAN TOYGUN 100 ETOS

Technical Specifications:


HD MWIR thermal vision: utilizes a high-resolution MWIR detector with a resolution of 1280x1024 pixels.

Laser rangefinder and target illuminator: Operates at a wavelength of 1064 nm and a range of up to 35 km. Complies with NATO standard STANAG 3733.

Multiple target tracking: Ability to track multiple targets simultaneously.

Automatic target recognition: Enables automatic identification of targets.

Laser dot tracking: Can detect and track targets marked by other platforms.

Compatibility: Suitable for air-to-air and air-to-ground operations.

Operating temperature range: -40°C to +70°C.



Infrared search and tracking system (IRST): ASELSAN KARAT 100

Technical specifications:


The KARAT 100 is an infrared search and tracking system (IRST) developed by ASELSAN for manned and unmanned combat aircraft, helicopters and unmanned aerial vehicles. It enables the passive detection and tracking of airborne targets using infrared technology.

Detector resolution: 640 x 512 pixels with 15 µm pixel size

Wavelength range: Long-wave infrared (LWIR)

Fields of view:

Narrow: 4.0° x 3.2° (horizontal x vertical)

Wide: 8.0° x 6.4° (horizontal x vertical)

Volume scan duration: ≤ 30 seconds

Communication/video interface: Fiber Ethernet

Power supply: 28 VDC according to MIL-STD-704F

Operating temperature range: -46°C to +70°C

Storage temperature range: -54°C to +71°C

Cooling: Liquid cooling

Superior detection range for modern fighter aircraft

Faceted design to reduce the radar cross-section

Customizable search volume

Automatic target detection and tracking in the search area

Single and multiple target tracking

Alignment with the platform's line of sight

Narrow and wide fields of view

Angular position information for detected targets

Passive range estimation for detected targets

Digital video output

Advanced image processing

Precise stabilization



Distributed Aperture System (DAS):
ASELSAN DAS

Technical specifications:


ASELSAN DAS is an advanced infrared sensor system that provides 360-degree all-round visibility for aircraft. It enables simultaneous detection and tracking of threats from all directions, including aircraft, missiles and drones.

Key features of the ASELSAN DAS:

All-round visibility: the system utilizes multiple infrared sensors strategically positioned around the aircraft to provide complete 360-degree coverage.

Threat detection: It detects and tracks potential threats in real time, enabling early warning and response.

Situational awareness: Integration with the cockpit display provides pilots with enhanced situational awareness, supporting decision making in critical situations.

Integration: The DAS can be seamlessly integrated into existing avionics systems and works with other sensor systems to provide comprehensive threat analysis.

Application: It is suitable for various platforms, including fighter aircraft, helicopters and unmanned aerial vehicles (UAVs).

The ASELSAN DAS contributes significantly to increasing the survivability and effectiveness of aircraft in complex operational scenarios.



Missile Approach Warning System (MAWS):
ASELSAN IRIS 100

Technical specifications:


The İRİS-100 is a Missile Approach Warning System (MAWS) developed by ASELSAN and specially designed for use on aircraft. It is used for the early detection and tracking of infrared-guided missile threats and thus increases the survivability of airplanes and helicopters.

Main features of the İRİS-100:

Detection in the UV range: the system detects the exhaust jets of approaching missiles in the "solar blind" UV band, resulting in lower jamming sensitivity.

High sensitivity: Enables the detection of threats over long distances.

Early threat warning: Declares and tracks threats as early as the launch phase of the missile.

Visual and acoustic warnings: Informs the pilot of detected threats both visually and audibly.

High probability of detection: Provides reliable identification of threats.

Precise angle determination: Provides accurate information about the direction of arrival of the threat.

Multiple target tracking: Can detect, track and declare multiple threats simultaneously.

Fast response time: Short declaration time enables timely activation of countermeasures.

Low false alarm rate: Minimizes the number of false alarms.

Flexible system configuration: Can be equipped with 4 to 6 sensors; spherical coverage is achieved with 6 sensors.

High reliability: Has a high mean time between failure (MTBF).

Spectral range: Solar Blind UV

Field of view:

With 4 sensors: ±45° elevation x 360° azimuth

With 6 sensors: Full spherical coverage

Communication interface: MIL-STD-1553 / RS-422

Power consumption: Less than 14 W per sensor unit

Operating temperature: -40°C to +71°C (according to MIL-STD-810E)

Storage temperature: -55°C to +85°C (according to MIL-STD-810E)

Cooling: No special requirements

The İRİS-100 has been extensively tested and has proven itself in use. It is suitable for various airborne platforms and provides effective protection against infrared-guided missile threats.
 

2033

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View attachment 72149
I have a preliminary check of what the Kizilelma PT3 drone is likely to have installed.

Engine:
Ivchenko Progress AI322-30F Technical specifications:


Type: Two-stage low-bypass turbofan

Length: 1,960 mm

Diameter: 640 mm

Weight: 440 kg (without afterburner), 560 kg (with afterburner)

Thrust:

2,500 kgf (24.5 kN) without afterburner

4,200 kgf (41.2 kN) with afterburner

Bypass ratio: 1.19:1

Pressure ratio: 15.43:1

Fuel consumption:

0.66 kg/kgf/h without afterburner

1.9 kg/kgf/h with afterburner

Thrust-to-weight ratio:

5.68 (without afterburner)

7.5 (with afterburner)

Expected thrust ratio in the Kizilelma PT3 drone with AI322-30F engine: 0.7

Will be replaced in the long term with the TEI TF-6000/10000 engine with a thrust ratio of 0.8

Kizilelma C with double engine, which is probably planned as the final version of the drone, would probably have a thrust ratio of 1.2-1.3



Radar: MURAD 200A AESA radar

Technical specifications:


Frequency band: X-Band

Transmit/receive modules: Over 1000 individual modules

Power per module: Standard 20 W, maximum 30 W

Total pulse power: 23 kW as standard, maximum 34.5 kW

Cooling: Liquid-cooled

Functions:

Air-to-air modes: long-range search, multi-target tracking, interphase guidance, weather detection, aerial combat maneuvers

Air-to-ground modes: strip SAR, point SAR, terrain mapping, moving ground target detection and tracking, maritime search and ISAR, air-to-ground ranging, Doppler beam sharpening, automatic altitude determination

Additional capabilities:

Multifunctional radar with simultaneous air-to-air and air-to-ground operations

Non-cooperative target identification

Automatic target recognition

Interference immunity

Electronic support and attack capabilities



Electro Optical Sensor System (ETOS):
ASELSAN TOYGUN 100 ETOS

Technical Specifications:


HD MWIR thermal vision: utilizes a high-resolution MWIR detector with a resolution of 1280x1024 pixels.

Laser rangefinder and target illuminator: Operates at a wavelength of 1064 nm and a range of up to 35 km. Complies with NATO standard STANAG 3733.

Multiple target tracking: Ability to track multiple targets simultaneously.

Automatic target recognition: Enables automatic identification of targets.

Laser dot tracking: Can detect and track targets marked by other platforms.

Compatibility: Suitable for air-to-air and air-to-ground operations.

Operating temperature range: -40°C to +70°C.



Infrared search and tracking system (IRST): ASELSAN KARAT 100

Technical specifications:


The KARAT 100 is an infrared search and tracking system (IRST) developed by ASELSAN for manned and unmanned combat aircraft, helicopters and unmanned aerial vehicles. It enables the passive detection and tracking of airborne targets using infrared technology.

Detector resolution: 640 x 512 pixels with 15 µm pixel size

Wavelength range: Long-wave infrared (LWIR)

Fields of view:

Narrow: 4.0° x 3.2° (horizontal x vertical)

Wide: 8.0° x 6.4° (horizontal x vertical)

Volume scan duration: ≤ 30 seconds

Communication/video interface: Fiber Ethernet

Power supply: 28 VDC according to MIL-STD-704F

Operating temperature range: -46°C to +70°C

Storage temperature range: -54°C to +71°C

Cooling: Liquid cooling

Superior detection range for modern fighter aircraft

Faceted design to reduce the radar cross-section

Customizable search volume

Automatic target detection and tracking in the search area

Single and multiple target tracking

Alignment with the platform's line of sight

Narrow and wide fields of view

Angular position information for detected targets

Passive range estimation for detected targets

Digital video output

Advanced image processing

Precise stabilization



Distributed Aperture System (DAS):
ASELSAN DAS

Technical specifications:


ASELSAN DAS is an advanced infrared sensor system that provides 360-degree all-round visibility for aircraft. It enables simultaneous detection and tracking of threats from all directions, including aircraft, missiles and drones.

Key features of the ASELSAN DAS:

All-round visibility: the system utilizes multiple infrared sensors strategically positioned around the aircraft to provide complete 360-degree coverage.

Threat detection: It detects and tracks potential threats in real time, enabling early warning and response.

Situational awareness: Integration with the cockpit display provides pilots with enhanced situational awareness, supporting decision making in critical situations.

Integration: The DAS can be seamlessly integrated into existing avionics systems and works with other sensor systems to provide comprehensive threat analysis.

Application: It is suitable for various platforms, including fighter aircraft, helicopters and unmanned aerial vehicles (UAVs).

The ASELSAN DAS contributes significantly to increasing the survivability and effectiveness of aircraft in complex operational scenarios.



Missile Approach Warning System (MAWS):
ASELSAN IRIS 100

Technical specifications:


The İRİS-100 is a Missile Approach Warning System (MAWS) developed by ASELSAN and specially designed for use on aircraft. It is used for the early detection and tracking of infrared-guided missile threats and thus increases the survivability of airplanes and helicopters.

Main features of the İRİS-100:

Detection in the UV range: the system detects the exhaust jets of approaching missiles in the "solar blind" UV band, resulting in lower jamming sensitivity.

High sensitivity: Enables the detection of threats over long distances.

Early threat warning: Declares and tracks threats as early as the launch phase of the missile.

Visual and acoustic warnings: Informs the pilot of detected threats both visually and audibly.

High probability of detection: Provides reliable identification of threats.

Precise angle determination: Provides accurate information about the direction of arrival of the threat.

Multiple target tracking: Can detect, track and declare multiple threats simultaneously.

Fast response time: Short declaration time enables timely activation of countermeasures.

Low false alarm rate: Minimizes the number of false alarms.

Flexible system configuration: Can be equipped with 4 to 6 sensors; spherical coverage is achieved with 6 sensors.

High reliability: Has a high mean time between failure (MTBF).

Spectral range: Solar Blind UV

Field of view:

With 4 sensors: ±45° elevation x 360° azimuth

With 6 sensors: Full spherical coverage

Communication interface: MIL-STD-1553 / RS-422

Power consumption: Less than 14 W per sensor unit

Operating temperature: -40°C to +71°C (according to MIL-STD-810E)

Storage temperature: -55°C to +85°C (according to MIL-STD-810E)

Cooling: No special requirements

The İRİS-100 has been extensively tested and has proven itself in use. It is suitable for various airborne platforms and provides effective protection against infrared-guided missile threats.
Wonderful!!! If all these features were possible, it could replace the 4.5 generation fighters.
 

IC3M@N FX

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Finally this is the next seroius Step, as soon as the weapons and target identification tests are completed, these drones must immediately go into series production at least 60 units + 10 options for the Navy, Gendarmerie/Army/Police and Air Force as first Batch.

20-30 pcs. TCG Anadolu/Navy
20 pcs Gendarmerie/Army/Police
20 pcs Air Force

We should also consider some of the TB2 drones in stock at least 40-50 pieces. Refurbished to Africa & Eastern Europe + Ukraine for sale.
The Money could then be used to finance part of the second batch.
 
Last edited:

dBSPL

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anadtb3.JPG

Unless I miscalculated, TB-3 completed its first landing test just below 100 meters.

Finally this is the next seroius Step, as soon as the weapons and target identification tests are completed, these drones must immediately go into series production at least 60 units + 10 options for the Navy, Gendarmerie/Army/Police and Air Force as first Batch.

20-30 pcs. TCG Anadolu/Navy
20 pcs Gendarmerie/Army/Police
20 pcs Air Force
I know the Navy is planning to procure more than 30.
 

dBSPL

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Congratulatory message from Haluk Görgün, President of SSB:

Bayraktar TB-3 made world record as the first UCAV, capable of both taking off and landing from a ship with a short runway! This success is an indicator not only of the Turkish defense industry, but also of our pionering in the global race in aerospace technologies. Turkiye won this race!

Developed with domestic and national facilities, TB-3 is a groundbreaking innovation in the field of our national naval aviation. With its flight time endurance, high payload capacity and now the ability to land and take off from a ship with a short runway, TB-3 is an approach that opens the door to a new era in future defense technologies. Turkiye entered naval aviation at the highest level!

I would like to sincerely congratulate our engineers, technicians and all the teams, especially our Baykar Tech company, who contributed to this historic achievement. Turkiye, with its perseverance and determination, has taken a leading place in a global race.

We are proud of our Baykar and our Defense Industry!

TB-3 True Force Multiplier

 

dBSPL

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Well done. Btw these tests need to be conducted with payload as well.


And with Domestic engine
Indigenous engine, indigenous flight control system, indigenously designed airframe, indigenous munitions, indigenous avionics and related payloads, indigenous system engineering. This makes the significance of this achievement even more profound.
 

Anmdt

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Last year when Selcuk Bayraktar said TB3 will land on TCG Anadolu in 2024, some valuable members here said it is impossible. I don't want to quote those posts.
You may quote mine, they haven't planned a landing within this year and it has been rushed. We are not telling that it can not be done, it is done earlier. Just like my words on KE, TB3 is bound to go through changes after these trials.

Kudos to the engineers, the ride is much smoother than i expected.
 

Anmdt

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Indigenous engine, indigenous flight control system, indigenously designed airframe, indigenous munitions, indigenous avionics and related payloads, indigenous system engineering. This makes the significance of this achievement even more profound.
And if they later make use of approach radars for landing, that would have been a lot better.
Now i also wonder where did they place the ground station, or through which console/controller they have controlled the landing.
 

Oublious

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First in history, a drone like TB3 landing on LHD not AC but LHD. This is real difficult to achieve, next step KE. Congrate tor Turkiye and TB2 team.
 

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