A New Rival to Anka From Europe: The HAMMERHEAD

[ozi2000]

THE P.1HH HAMMERHEAD UAS
The Piaggio Aerospace P.1HH HammerHead is a new, state-of-the-art Unmanned Aerial System (UAS) designed for Intelligence, Surveillance and Reconnaissance (ISR) missions whose combination of performance and operational characteristics is at the very top end of the UAS MALE category.

An unmatched combination of range, wide operative speeds, fast climb gradient, high operative ceiling and variety of payloads, provides end-users with a powerful yet flexible Defense System that outperforms other MALE Systems, identifying the P.1HH HammerHead as a Super MALE UAS.

P.1HH HammerHead, is suited for a wide range of ISR, Defense and Security missions, and defines an unsurpassed mission role flexibility and sets a new frontier of CONcept of OPerationS (CONOPS) for Defense. The P.1HH HammerHead Unmanned Aerial Vehicle (UAV) is derived from the successful Piaggio Aerospace P.180 Avanti II business aviation aircraft, the fastest twin turboprop aircraft in the world with a proven, uneventful, service record of more than 20 years and 800.000 flight hours.

The design of the P.1HH HammerHead aims at being a unique ISR platform, able to climb up to 45.000 feet, loitering quietly at low speed (135 KTAS) for an endurance of up to 16 flight hours and dashing at very high speed (up to 395 KTAS) to target. Its capabilities include being able to host several payload combinations and to perform multiple missions: aerial, land, coastal, maritime and offshore security, COMINT/ELINT, electronic warfare as well as other roles.

Based on the P.180 Avanti II proven architecture and technologies (tested and certified for passenger transportation) and, on the outstanding experience and capability of Selex ES in the mission management systems for manned/ unmanned ISR, P.1HH HammerHead is designed to be an all weather aircraft with twin turboprop propulsion providing maximum safety, operational reliability and the lowest incident rate in its category.

The P.1HH HammerHead design is fully compliant with STANAG USAR 4671 standards to fly in both restricted and unrestricted flight areas, according to the relevant authorities permission.

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P1.HH HAMMERHEAD - THE UAV PLATFORM
The P.1HH HammerHead UAV platform has an aerodynamic configuration largely similar to P.180 Avanti II.

This is very versatile thanks to its unique patented 3 lifting surfaces configuration (3 LSC) and high aspect ratio laminar wings, adapted for the P.1HH design by moderately increasing the wing span to sustain larger vehicle masses and allocating a quick detachable joint to the outer wings for rapid aerial deployment of the UAS in remote areas. Being based on a certified Mach 0.70 aircraft, P.1HH HammerHead is the fastest MALE.

The P.1HH HammerHead power plant has two, highly reliable Pratt & Whitney Canada PT6A-66B turbine engines integrated with low noise 5 blade scimitar propellers. The Power Plant is controlled by two Engine Interface Units that receive commands from the FCC to drive the turbine and the propeller governors while managing engine and propeller data. A large upper fuselage tank, supported by a robust yet efficient carry through beam, is integrated to provide the required fuel quantity for long range and endurance.

A smart fuel system is designed to control and minimize the movement of the aircraft center of gravity for maximum operational flexibility in a wide range of mission payloads. The triple redundant 28VDC electrical generation and distribution system supplies energy for all aircraft functions with adequate operational reserve through the envelope, and fully satisfies large power demands from a variety of power consuming payloads. P.1HH HammerHead inherits proven Piaggio Aerospace P.180 aircraft general systems, e.g.: Anti Ice, with hot air on main wing, electrical on forward wing and pneumatic boots on the engine nacelle inlet. It also has a hydraulic dual pressure system for landing gear extensions/retraction and brake activation, plus other ancillary systems like fire extinguishing for the engine nacelle area. These subsystems are all commanded by the VCMS, via fail-safe Remote Interface Units.

P.1HH HAMMERHEAD - PAYLOAD ARRANGEMENT
The large but, low drag P.180 aircraft fuselage provides capability for aerodynamically effective payload arrangements, with plenty of available volume from the variety of LRU’s equipment, sensors and communication equipment comfortably located inside the fuselage.

Back to top
P.1HH HAMMERHEAD VCMS - THE UAV BRAIN
P.1HH HammerHead features a technologically advanced Vehicle Control & Management System (VCMS) that when combined with the advanced Mission Management System (MMS) manages the UAV and its mission specific equipment.

The VCMS, commanded from the Ground Control Station (GCS) via an airborne datalink system, conducts the vehicle commanding aerodynamic control surfaces and manages on-board equipment with a triple redundant Flight Control Computer (FCC) system and multiple remote multi-lane Servo Interface Units (SIU), developed to achieve the required level of safety and mission reliability.

Position, attitude and air data are guaranteed by triple redundant Inertial Sensors (INS) and Air Data Probes (ADS), mounted in the VCMS. P.1HH HammerHead VCMS features an Automatic Take-Off and Landing (ATOL) system served with dual redundant external sensors for required reliability and safety.

All VCMS LRU’s are installed inside the large volume fuselage, in a very protected optimized operative environment, in a specific lay-out that provides zonal separation and temperature analysis to achieve a state of the art operative temperature range, highest VCMS reliability and finally, P.1HH HammerHead safety. Very easy access is provided through the large entry door and a multitude of access doors for the best maintainability within the segment.

P.1HH HAMMERHEAD - GROUND CONTROL STATION & DATALINK SYSTEM
An advanced Ground Control Station (GCS) is the P.1HH HammerHead UAS’s command & control center. The GCS is located in an autonomous shelter that hosts crew, equipment and consoles necessary to manage three UAVs (two operational, one in transfer mode) and their related Payloads.

The Crew processes functions necessary to execute tactical unmanned missions and stand-off surveillance unmanned missions, remotely commanding and controlling through VCMS and MMS the on-board surveillance system with an advanced human/machine interface integrating display and control system. The GCS is provided with multip le Ground Data Terminals (GDT) that when coupled with the associated Air Data Terminals (ADT) on the vehicles provide Line Of Sight (LOS) and Beyond Line Of Sight (BLOS) Link for Vehicle and Payload Control.

The Links System allows LOS & BLOS air vehicle command & control and payload digital encrypted data transmission via redundant, multi-frequency, high bandwidth RF links and via Ku/Ka Band SATCOM.

Mission data is eventually relayed to the headquarters either via ground communication systems or eventually with the same LOS/BLOS data link.

VCMS / GCS is developed and supplied by Selex ES thanks to their long experience in Avionics for many different platforms and Unmanned Aerial System

Back to top
P1HH HAMMERHEAD - MISSION MANAGEMENT SYSTEM
The P.1HH HammerHead UAS Mission Management System is based on Selex ES skyISTAR® innovative technology, which redefines the concept of patrolling and ISR missions, to encompass threats that range from terrorist attacks to illegal immigration, as well as protection of Exclusive Economic Zones (EEZ), infrastructures and critical sites.

The on board airborne Mission Management System (MMS) manages sensors, video and data, communications, and ISR functions and it is capable of recording video and mission data.

The MMS is modular and reconfigurable with effective and fully integrated open system architecture possessing significant growth capability.

Sensor fusion technology, data management and exploitation features of skyISTAR® enable highly effective border control, wide area surveillance, targeted surveillance environmental and disaster control missions.

Back to top
TECHNICAL SPECIFICATIONS
Medium Altitude Long Endurance ISR Unmanned Aerial System
Dimensions

• Span 15.600 m [51.18 ft]
• Length 14.408 m [47.27 ft]
• Height 3.980 m [13.05 ft]

Areas

• Wing 18.00 m2 [193.75 ft2]
• Horizontal Tail 3.834 m2 [41.27 ft2]
• Vertical Tail 4.731 m2 [50.92 ft2]
• Forward Wing (Exposed) 1.300 m2 [13.99 ft2]

Weights

• Max TakeOff Weight MTOW 6,146 Kg [13,550 lbs.]

Powerplant

• 2 × Pratt & Whitney Canada PT6A-66B 850 SHP (ISA, sea level)
• Hartzell five blade low noise propellers counter rotating

Mission system
Selex ES SkyISTAR® with

• FLIR EO/IR StarSafire 380HD
• Seaspray 7300 E Radar

Performance

• Maximum speed 395 KTAS
• Cruise speed 320 KTAS
• Loiter speed 135 KTAS
• Max range 4,400 NM
• Max endurance (500 lbs payload) 16 hours
• Endurance (500 lbs payload) @ 1,500 km from takeoff & landing base 10.5 hours
• Service ceiling 45,000 ft

P.1HH HAMMERHEAD MALE ISR UNMANNED AERIAL SYSTEM



Main competitive characteristics

• Capable to perform ISR – COMINT - ELINT – SIGINT missions
• Twin turboprop, all weather, proven system architecture and technologies
• Vehicle Control Management System compliant with STANAG USAR 4671 standards with Automatic Take Off and Landing
• Full redundancy – Safety requirements Cat. Event Prob. 10-6 FH, SW Critical functions DO178B level B
• System is ground/sea/air transportable (removable wings)
• 24 hrs deployment capability
• LOS/BLOS wide narrow band Datalink

Unpaired combination of performances for range and operational speed:

• Operational Ceiling: 45,000 ft.
• MMO: 0.70 Mach
• Climb to 35.000 ft. in 20 minutes at maximum weight
• Loiter at 135KTAS (1 to 3 NM turning radius).
• Maximum speed up to 395 KTAS
• Endurance: 16 hrs plus, with ISR payload
• Range: up to 4,400 NM

 

[Sage]

Is this beauty in service already ?

 

[SouI]

Looks like the Indian UAV in WIP.. I'd stick to our design instead..

 

[haman10]

If it flys , then it definitely wins over anka .cause anka is not even capable of flying yet .

it's germen engines don't work properly

 

[cabatli_53]

If it flys , then it definitely wins over anka .cause anka is not even capable of flying yet .

it's germen engines don't work properly

The altitude you reached with your "MALE" is being passed by our tactical UAV's dude. No need to mention our MALE expectations and menthal differences among us...

If It was Iran that is able to develop a "tactical" size UAV climbing around 30000ft altitude, I bet You would have called it as "HALE". It is the same story as you called a corvette as destroyer. After those, You are coming here to measure your d@cks with invalid figures.

 

[Echo_419]

THE P.1HH HAMMERHEAD UAS
The Piaggio Aerospace P.1HH HammerHead is a new, state-of-the-art Unmanned Aerial System (UAS) designed for Intelligence, Surveillance and Reconnaissance (ISR) missions whose combination of performance and operational characteristics is at the very top end of the UAS MALE category.

An unmatched combination of range, wide operative speeds, fast climb gradient, high operative ceiling and variety of payloads, provides end-users with a powerful yet flexible Defense System that outperforms other MALE Systems, identifying the P.1HH HammerHead as a Super MALE UAS.

P.1HH HammerHead, is suited for a wide range of ISR, Defense and Security missions, and defines an unsurpassed mission role flexibility and sets a new frontier of CONcept of OPerationS (CONOPS) for Defense. The P.1HH HammerHead Unmanned Aerial Vehicle (UAV) is derived from the successful Piaggio Aerospace P.180 Avanti II business aviation aircraft, the fastest twin turboprop aircraft in the world with a proven, uneventful, service record of more than 20 years and 800.000 flight hours.

The design of the P.1HH HammerHead aims at being a unique ISR platform, able to climb up to 45.000 feet, loitering quietly at low speed (135 KTAS) for an endurance of up to 16 flight hours and dashing at very high speed (up to 395 KTAS) to target. Its capabilities include being able to host several payload combinations and to perform multiple missions: aerial, land, coastal, maritime and offshore security, COMINT/ELINT, electronic warfare as well as other roles.

Based on the P.180 Avanti II proven architecture and technologies (tested and certified for passenger transportation) and, on the outstanding experience and capability of Selex ES in the mission management systems for manned/ unmanned ISR, P.1HH HammerHead is designed to be an all weather aircraft with twin turboprop propulsion providing maximum safety, operational reliability and the lowest incident rate in its category.

The P.1HH HammerHead design is fully compliant with STANAG USAR 4671 standards to fly in both restricted and unrestricted flight areas, according to the relevant authorities permission.

Back to top
P1.HH HAMMERHEAD - THE UAV PLATFORM
The P.1HH HammerHead UAV platform has an aerodynamic configuration largely similar to P.180 Avanti II.

This is very versatile thanks to its unique patented 3 lifting surfaces configuration (3 LSC) and high aspect ratio laminar wings, adapted for the P.1HH design by moderately increasing the wing span to sustain larger vehicle masses and allocating a quick detachable joint to the outer wings for rapid aerial deployment of the UAS in remote areas. Being based on a certified Mach 0.70 aircraft, P.1HH HammerHead is the fastest MALE.

The P.1HH HammerHead power plant has two, highly reliable Pratt & Whitney Canada PT6A-66B turbine engines integrated with low noise 5 blade scimitar propellers. The Power Plant is controlled by two Engine Interface Units that receive commands from the FCC to drive the turbine and the propeller governors while managing engine and propeller data. A large upper fuselage tank, supported by a robust yet efficient carry through beam, is integrated to provide the required fuel quantity for long range and endurance.

A smart fuel system is designed to control and minimize the movement of the aircraft center of gravity for maximum operational flexibility in a wide range of mission payloads. The triple redundant 28VDC electrical generation and distribution system supplies energy for all aircraft functions with adequate operational reserve through the envelope, and fully satisfies large power demands from a variety of power consuming payloads. P.1HH HammerHead inherits proven Piaggio Aerospace P.180 aircraft general systems, e.g.: Anti Ice, with hot air on main wing, electrical on forward wing and pneumatic boots on the engine nacelle inlet. It also has a hydraulic dual pressure system for landing gear extensions/retraction and brake activation, plus other ancillary systems like fire extinguishing for the engine nacelle area. These subsystems are all commanded by the VCMS, via fail-safe Remote Interface Units.

P.1HH HAMMERHEAD - PAYLOAD ARRANGEMENT
The large but, low drag P.180 aircraft fuselage provides capability for aerodynamically effective payload arrangements, with plenty of available volume from the variety of LRU’s equipment, sensors and communication equipment comfortably located inside the fuselage.

Back to top
P.1HH HAMMERHEAD VCMS - THE UAV BRAIN
P.1HH HammerHead features a technologically advanced Vehicle Control & Management System (VCMS) that when combined with the advanced Mission Management System (MMS) manages the UAV and its mission specific equipment.

The VCMS, commanded from the Ground Control Station (GCS) via an airborne datalink system, conducts the vehicle commanding aerodynamic control surfaces and manages on-board equipment with a triple redundant Flight Control Computer (FCC) system and multiple remote multi-lane Servo Interface Units (SIU), developed to achieve the required level of safety and mission reliability.

Position, attitude and air data are guaranteed by triple redundant Inertial Sensors (INS) and Air Data Probes (ADS), mounted in the VCMS. P.1HH HammerHead VCMS features an Automatic Take-Off and Landing (ATOL) system served with dual redundant external sensors for required reliability and safety.

All VCMS LRU’s are installed inside the large volume fuselage, in a very protected optimized operative environment, in a specific lay-out that provides zonal separation and temperature analysis to achieve a state of the art operative temperature range, highest VCMS reliability and finally, P.1HH HammerHead safety. Very easy access is provided through the large entry door and a multitude of access doors for the best maintainability within the segment.

P.1HH HAMMERHEAD - GROUND CONTROL STATION & DATALINK SYSTEM
An advanced Ground Control Station (GCS) is the P.1HH HammerHead UAS’s command & control center. The GCS is located in an autonomous shelter that hosts crew, equipment and consoles necessary to manage three UAVs (two operational, one in transfer mode) and their related Payloads.

The Crew processes functions necessary to execute tactical unmanned missions and stand-off surveillance unmanned missions, remotely commanding and controlling through VCMS and MMS the on-board surveillance system with an advanced human/machine interface integrating display and control system. The GCS is provided with multip le Ground Data Terminals (GDT) that when coupled with the associated Air Data Terminals (ADT) on the vehicles provide Line Of Sight (LOS) and Beyond Line Of Sight (BLOS) Link for Vehicle and Payload Control.

The Links System allows LOS & BLOS air vehicle command & control and payload digital encrypted data transmission via redundant, multi-frequency, high bandwidth RF links and via Ku/Ka Band SATCOM.

Mission data is eventually relayed to the headquarters either via ground communication systems or eventually with the same LOS/BLOS data link.

VCMS / GCS is developed and supplied by Selex ES thanks to their long experience in Avionics for many different platforms and Unmanned Aerial System

Back to top
P1HH HAMMERHEAD - MISSION MANAGEMENT SYSTEM
The P.1HH HammerHead UAS Mission Management System is based on Selex ES skyISTAR® innovative technology, which redefines the concept of patrolling and ISR missions, to encompass threats that range from terrorist attacks to illegal immigration, as well as protection of Exclusive Economic Zones (EEZ), infrastructures and critical sites.

The on board airborne Mission Management System (MMS) manages sensors, video and data, communications, and ISR functions and it is capable of recording video and mission data.

The MMS is modular and reconfigurable with effective and fully integrated open system architecture possessing significant growth capability.

Sensor fusion technology, data management and exploitation features of skyISTAR® enable highly effective border control, wide area surveillance, targeted surveillance environmental and disaster control missions.

Back to top
TECHNICAL SPECIFICATIONS
Medium Altitude Long Endurance ISR Unmanned Aerial System
Dimensions

• Span 15.600 m [51.18 ft]
• Length 14.408 m [47.27 ft]
• Height 3.980 m [13.05 ft]

Areas

• Wing 18.00 m2 [193.75 ft2]
• Horizontal Tail 3.834 m2 [41.27 ft2]
• Vertical Tail 4.731 m2 [50.92 ft2]
• Forward Wing (Exposed) 1.300 m2 [13.99 ft2]

Weights

• Max TakeOff Weight MTOW 6,146 Kg [13,550 lbs.]

Powerplant

• 2 × Pratt & Whitney Canada PT6A-66B 850 SHP (ISA, sea level)
• Hartzell five blade low noise propellers counter rotating

Mission system
Selex ES SkyISTAR® with

• FLIR EO/IR StarSafire 380HD
• Seaspray 7300 E Radar

Performance

• Maximum speed 395 KTAS
• Cruise speed 320 KTAS
• Loiter speed 135 KTAS
• Max range 4,400 NM
• Max endurance (500 lbs payload) 16 hours
• Endurance (500 lbs payload) @ 1,500 km from takeoff & landing base 10.5 hours
• Service ceiling 45,000 ft

P.1HH HAMMERHEAD MALE ISR UNMANNED AERIAL SYSTEM



Main competitive characteristics

• Capable to perform ISR – COMINT - ELINT – SIGINT missions
• Twin turboprop, all weather, proven system architecture and technologies
• Vehicle Control Management System compliant with STANAG USAR 4671 standards with Automatic Take Off and Landing
• Full redundancy – Safety requirements Cat. Event Prob. 10-6 FH, SW Critical functions DO178B level B
• System is ground/sea/air transportable (removable wings)
• 24 hrs deployment capability
• LOS/BLOS wide narrow band Datalink

Unpaired combination of performances for range and operational speed:

• Operational Ceiling: 45,000 ft.
• MMO: 0.70 Mach
• Climb to 35.000 ft. in 20 minutes at maximum weight
• Loiter at 135KTAS (1 to 3 NM turning radius).
• Maximum speed up to 395 KTAS
• Endurance: 16 hrs plus, with ISR payload
• Range: up to 4,400 NM

Looks good

 

[black-hawk_101]

Its a JV b/w EU and UAE ...........

 

[cabatli_53]

If it flys , then it definitely wins over anka .cause anka is not even capable of flying yet .

it's germen engines don't work properly

A new tactical UAV which is pushing the World performance limits in its class.

Vestel Karayel Block-2 reached around 23000ft altitude and having a duration of 20hours While carrying 75kg usefull payload.

 

[SouI]

A new tactical UAV which is pushing the World performance limits in its class.

Vestel Karayel Block-2 reached around 23000ft altitude and having a duration of 20hours While carrying 75kg usefull payload.

It is a wise thing to have so many different types of UAV? Do the other countries do it like this?

It is like we now have so many different UAV's for similar tasks.

 

[cabatli_53]

It is a wise thing to have so many different types of UAV? Do the other countries do it like this?

It is like we now have so many different UAV's for similar tasks.

Actually, Not many different types of UAV. Turkish institutes have developed/SSM ordered one mini class UAV(around 150), two different type of tactical UAV(6 + 10), one MALE class(10) and developing one HALE class UAV which is going to be used for different purposes on differnt air layers.

Although Karayel and Caldiran look in same category, Caldiran is going to be used on classic take off/landing operations which needs long runway to be operational. Contrary to Caldiran, Karayel will be catapult launchable one which is going to be launched not based on long runways but maybe rocket boosted catapult system on any area system established.

 

[Umair Nawaz]

this looks like a small aircraft.

 

[xenon54 out]

this looks like a small aircraft.

Ummm, maybe because it actually is one?