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Intended to replace the [[P-3 Orion]] and derivatives, the '''P-8A Poseidon''' is a long-range anti-submarine warfare, anti-surface warfare, intelligence, surveillance, and reconnaissance aircraft. It possesses an advanced mission system for maximum interoperability in battle space. Capable of broad-area, maritime, and littoral operations, the P-8A is expected to influence how the U.S. Navy's maritime patrol and reconnaissance forces train, operate, and deploy.
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Intended to replace the [[P-3 Orion]] and derivatives, the '''P-8A Poseidon''' is a [[United States Navy]] long-range [[anti-submarine warfare]] (ASW), [[anti-surface warfare]] (ASuW), and [[C3I-ISR|intelligence, surveillance and reconnaissance]] (ISR) aircraft. It possesses extensive sensors and communications for maximum interoperability with U.S. and allied forces; there are even discussions of establishing interoperable communications with Russian systems in coalition operations. The aircraft can patrol the open ocean, [[littoral (military)|littoral]], and land.
 
In ASW, the P-8 is likely to cooperate with [[H-60 helicopter#Second generation|MH-60R helicopter]] or its SH-60B or SH-60F predecessors, as well as surface ASW vessels, and possibly friendly submarines. It can provide over-the-horizon guidance to [[RIM-156 Standard SM-2]] missiles in over-the-horizon ASuW attack.  


==Airfarme and Power==
==Airfarme and Power==
A next-generation derivative of the 737-800, the P-8A is powered by the CFM56-7 engine, which also powers the Boeing 737 Airborne Early Warning & Control aircraft and C-40 transport.
A derivative of the [[Boeing 737]] commercial [[transport aircraft]], the P-8A is powered by the CFM56-7 engine, which also powers the Australian and Turkish "Wedgetail" [[Airborne Warning and Control System]] (AWACS) aircraft and [[C-40 Clipper]] transport.


* 27,300 pounds of takeoff thrust per engine
* 27,300 pounds of takeoff thrust per engine
* 30 million flight hours, with an industry-leading 0.002 percent in-flight shut-down rate per 1,000 flight hours
* 30 million flight hours
 
==Avionics==
==Avionics==
Northrop Grumman’s Electronic Systems sector will provide the electro-optical/infrared (EO/IR) sensor, the directional infrared countermeasures system, and the electronic support measures system. Northrop Grumman’s Mission Systems sector will develop data links for P-8A. The company’s Integrated Systems sector will support the mission planning effort.
[[Northrop Grumman]]’s Electronic Systems sector will provide the electro-optical/infrared (EO/IR) sensor, the directional infrared countermeasures system, and the electronic support measures system. Northrop Grumman’s Mission Systems sector will develop data links for the P-8A.  
Raytheon will provide an upgraded APS-137 Maritime Surveillance Radar and Signals Intelligence (SIGINT) solutions. Raytheon is also offering its revolutionary GPS Anti-Jam, Integrated Friend or Foe, and Towed Decoy Self-Protection suites, and the aircraft’s Broadcast Info System (BIS) and secure UHF Satcom capability.
===Sensors===
GE Aviation will supply both the Flight Management and Stores Management systems on the P-8A. The Flight Management System provides a truly integrated open architecture that is CNS/ATM compatible along with an inherent growth path for upgrades. The Stores
The aircraft is equipped with the upgraded AN/APS-137D(V)5 maritime surveillance radar and [[signals intelligence]] (SIGINT) system developed by Raytheon. The system was redesignated [[APY-10|AN/APY-10]] in June 2006.<ref name=APY10>{{citation
Management System provides a comprehensive system for the electronic control of integrated weapons management.
| url = http://www.prnewswire.com/cgi-bin/micro_stories.pl?ACCT=910470&TICK=RTNB9&STORY=/www/story/06-06-2006/0004375408&EDATE=Jun+6,+2006
==Armament==
| title = Raytheon P-8A MMA Radar Receives New AN/APY-10 Nomenclature
e cabin is fitted with up to seven operator consoles.
| author = Raytheon }}</ref>
Complementing the P-8 with LSRS will be a radar-carrying [[MQ-4 Global Hawk]] [[unmanned aerial vehicle]], the [[Broad Area Maritime Surveillance]] system. A further


Northrop Grumman Electronic Systems in Baltimore has developed the aircraft's electro-optical and infrared sensors.
Smaller and lighter than its predecessor, the new radar is installed on the enlarged nose fairing. The AN/APY-10 radar provides [[Radar#Synthetic Aperture Radar|Synthetic Aperture Radar (SAR)]] mode capability for imaging, detection, classification and identification of stationary ships and small vessels and for coastal and overland surveillance, and high resolution [[Radar#inverse synthetic aperture radar|Inverse Synthetic Aperture Radar (ISAR)]] mode for imaging, detection, classification and tracking of surfaced submarines and small, fast moving vessels that operate in coastal waters. It is unclear, however, how this system relates to the  [[Littoral Surveillance Radar System]] (LSRS), recently designated the AN/APS-149.(LSRS), whose shape may be the reason the airframe was changed from a [[Boeing 737|Boeing 737-700]] to a 737-800, which has a longer fuselage apparently better suited for the LSRS antenna.


The aircraft is equipped with the upgraded APS-137D(V)5 maritime surveillance radar and signal intelligence SIGINT system developed by Raytheon. The system was redesignated AN/APY-10 in June 2006. The AN/APY-10 radar is installed on the enlarged nose fairing.
The SAR provides multiple resolution strip map and spot SAR operation, and allows high resolution for target identification, battle damage assessment and for weapons targeting. Periscope detection uses high scan speeds, high pulse repetition frequency, high resolution mode with advanced sea clutter rejection.
"The integral bomb bay will carry free-fall bombs, Raytheon Mark 54 torpedoes and depth charges."


The AN/APY-10 radar provides Synthetic Aperture Radar (SAR) mode capability for imaging, detection, classification and identification of stationary ships and small vessels and for coastal and overland surveillance, and high resolution Imaging Synthetic Aperture Radar (ISAR) mode for imaging, detection, classification and tracking of surfaced submarines and small, fast moving vessels that operate in coastal waters.
The P-8A will also be fitted with the CAE Advanced Integrated [[Geophysical MASINT#magnetic anomaly detection|Magnetic Anomaly Detection]] (MAD) System. The aircraft will carry a rotary [[Geophysical MASINT#Air-dropped passive acoustic sensors|sonobuoy]] launcher with pneumatic ejection, being developed by EDO Corporation.


The SAR provides multiple resolution strip map and spot SAR operation, and allows high resolution for target identification, battle damage assessment and for weapons targeting.
===Defensive electronics===
Raytheon is also offering its GPS Anti-Jam, [[identification friend or foe]], and Towed Decoy Self-Protection suites.  Northrop Grumman is supplying the Electronic Warfare Self-Protection (EWSP) suite which includes the Terma [[AN/ALQ-213]](V) Electronic Warfare Management System (EWMS),<ref name=ALQ213>{{citation
| title = Terma protects the new U.S. Navy P-8A Multi-Mission Maritime Aircraft
| url = http://www.termanorthamerica.com/index.dsp?area=319#
| author =
}}</ref>/ The AN/ALQ-213, in turn, controls:
* Northrop Grumman Directional Infrared Countermeasures (DIRCM) set
* Northrop Grumman [[radar warning receiver]]
* BAE Systems countermeasures dispenser system.
Terma is a Danish firm, which originally developed the EWMS for the [[F-16 Fighting Falcon]].


Periscope detection uses high scan speeds, high pulse repetition frequency, high resolution mode with advanced sea clutter rejection.
===Communications===
The P8 has a Broadcast Info System (BIS) and secure [[ITU frequency bands|UHF]]  [[satellite communications]] capability.  


Raytheon is offering the new global positioning system anti-jam, integrated friend or foe and towed decoy self protection suites along with a Broadcast Information System (BIS) and secure UHF satellite communications.
GE Aviation will supply both the Flight Management and Stores Management systems on the P-8A. The Flight Management System provides a open architecture that is compatible with the [[CNS/ATM gateway]] <ref name=ARINC-CNS-ATM>{{citation
| url = http://www.arinc.com/products/air_traffic_management/cns_atm_gateway.html\
| title = CNS/ATM Gateway
| author = ARINC Incorporated
}}</ref> to air traffic control . The Stores Management System provides a system for the electronic control of integrated weapons management, such as setting the depth at which a sonobuoy will monitor.


The P-8A will also be fitted with the CAE Advanced Integrated Magnetic Anomaly Detection (MAD) System.
==Armament==
The integral bomb bay will carry [[gravity bomb]]s, Raytheon [[Mark 54 torpedo]]es and [[depth charge]]s. [[Air-to-surface missile]]s will be installed on the underwing hardpoints.


The aircraft will carry a rotary sonobuoy launcher with pneumatic ejection, being developed by EDO Corporation.
Bomb capability includes the guided [[Joint Direct Attack Munition]] (JDAM).  Since the P-8 flies more efficiently at altitude than the traditional low altitude to drop antisubmarine torpedoes, experiments to marry JDAM guidance with a lightweight torpedo. The combination, called Longshot, would allow high-altitude drops both from the P-8 and the older [[P-3 Orion]].<ref name=Longshot>{{citation
| title = Longshot: A Swooping HAAWC for Torpedos
| journal=Defense Industry Daily
| date = 31 May 2007
| url = http://www.defenseindustrydaily.com/longshot-a-swooping-haawc-for-torpedos-03340/
}}</ref>


The data links are being developed by Northrop Grumman Information Technology Division in Herndon, Virginia,
==Performance==
WEAPONS


The integral bomb bay will carry free-fall bombs, Raytheon Mark 54 torpedoes and depth charges. Air-to-surface missiles will be installed on the underwing hardpoints.
The aircraft can cruise at high altitude at nearly 926km/hr (500kt) and loiter at a speed of 333km/hr (180kt) over the sea at a low altitude of 60m.
COUNTERMEASURES
==Foreign users==
 
[[India]] has selected the P-8 as its high-end MPA.<ref>{{citation
Northrop Grumman is supplying the Electronic Warfare Self-Protection (EWSP) suite which includes Terma AN/ALQ-213(V) Electronic Warfare Management System (EWMS), Northrop Grumman Directional Infrared Countermeasures (DIRCM) set, Northrop Grumman radar warning system and BAE Systems countermeasures dispenser system.
| title =  P-8i: India’s Navy Picks Its Future High-End Maritime Patrol Aircraft 
 
| date = 14 February 2010
PERFORMANCE
| url = http://www.defenseindustrydaily.com/indias-navy-holding-maritime-patrol-aircraft-competition-updated-01991/
  | journal=Defense Industry Daily}}</ref>


The aircraft can cruise at high altitude at nearly 926km/hr (500kt) and loiter at a speed of 333km/hr (180kt) over the sea at a low altitude of 60m.
The [[Royal Australian Air Force]], which now operates P-3s, is likely to acquire P-8s. All current P-3 users are candidates, including [[Argentina]], [[Canada]], [[Chile]], [[Germany]], [[Greece]], [[Italy]], [[Japan]], [[New Zealand]], [[Pakistan]], [[Portugal]], [[Spain]] and the [[United Kingdom]], although there is competition for the European users
==References==
{{reflist|2}}

Latest revision as of 16:19, 19 April 2024

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Intended to replace the P-3 Orion and derivatives, the P-8A Poseidon is a United States Navy long-range anti-submarine warfare (ASW), anti-surface warfare (ASuW), and intelligence, surveillance and reconnaissance (ISR) aircraft. It possesses extensive sensors and communications for maximum interoperability with U.S. and allied forces; there are even discussions of establishing interoperable communications with Russian systems in coalition operations. The aircraft can patrol the open ocean, littoral, and land.

In ASW, the P-8 is likely to cooperate with MH-60R helicopter or its SH-60B or SH-60F predecessors, as well as surface ASW vessels, and possibly friendly submarines. It can provide over-the-horizon guidance to RIM-156 Standard SM-2 missiles in over-the-horizon ASuW attack.

Airfarme and Power

A derivative of the Boeing 737 commercial transport aircraft, the P-8A is powered by the CFM56-7 engine, which also powers the Australian and Turkish "Wedgetail" Airborne Warning and Control System (AWACS) aircraft and C-40 Clipper transport.

  • 27,300 pounds of takeoff thrust per engine
  • 30 million flight hours

Avionics

Northrop Grumman’s Electronic Systems sector will provide the electro-optical/infrared (EO/IR) sensor, the directional infrared countermeasures system, and the electronic support measures system. Northrop Grumman’s Mission Systems sector will develop data links for the P-8A.

Sensors

The aircraft is equipped with the upgraded AN/APS-137D(V)5 maritime surveillance radar and signals intelligence (SIGINT) system developed by Raytheon. The system was redesignated AN/APY-10 in June 2006.[1] Complementing the P-8 with LSRS will be a radar-carrying MQ-4 Global Hawk unmanned aerial vehicle, the Broad Area Maritime Surveillance system. A further

Smaller and lighter than its predecessor, the new radar is installed on the enlarged nose fairing. The AN/APY-10 radar provides Synthetic Aperture Radar (SAR) mode capability for imaging, detection, classification and identification of stationary ships and small vessels and for coastal and overland surveillance, and high resolution Inverse Synthetic Aperture Radar (ISAR) mode for imaging, detection, classification and tracking of surfaced submarines and small, fast moving vessels that operate in coastal waters. It is unclear, however, how this system relates to the Littoral Surveillance Radar System (LSRS), recently designated the AN/APS-149.(LSRS), whose shape may be the reason the airframe was changed from a Boeing 737-700 to a 737-800, which has a longer fuselage apparently better suited for the LSRS antenna.

The SAR provides multiple resolution strip map and spot SAR operation, and allows high resolution for target identification, battle damage assessment and for weapons targeting. Periscope detection uses high scan speeds, high pulse repetition frequency, high resolution mode with advanced sea clutter rejection.

The P-8A will also be fitted with the CAE Advanced Integrated Magnetic Anomaly Detection (MAD) System. The aircraft will carry a rotary sonobuoy launcher with pneumatic ejection, being developed by EDO Corporation.

Defensive electronics

Raytheon is also offering its GPS Anti-Jam, identification friend or foe, and Towed Decoy Self-Protection suites. Northrop Grumman is supplying the Electronic Warfare Self-Protection (EWSP) suite which includes the Terma AN/ALQ-213(V) Electronic Warfare Management System (EWMS),[2]/ The AN/ALQ-213, in turn, controls:

  • Northrop Grumman Directional Infrared Countermeasures (DIRCM) set
  • Northrop Grumman radar warning receiver
  • BAE Systems countermeasures dispenser system.

Terma is a Danish firm, which originally developed the EWMS for the F-16 Fighting Falcon.

Communications

The P8 has a Broadcast Info System (BIS) and secure UHF satellite communications capability.

GE Aviation will supply both the Flight Management and Stores Management systems on the P-8A. The Flight Management System provides a open architecture that is compatible with the CNS/ATM gateway [3] to air traffic control . The Stores Management System provides a system for the electronic control of integrated weapons management, such as setting the depth at which a sonobuoy will monitor.

Armament

The integral bomb bay will carry gravity bombs, Raytheon Mark 54 torpedoes and depth charges. Air-to-surface missiles will be installed on the underwing hardpoints.

Bomb capability includes the guided Joint Direct Attack Munition (JDAM). Since the P-8 flies more efficiently at altitude than the traditional low altitude to drop antisubmarine torpedoes, experiments to marry JDAM guidance with a lightweight torpedo. The combination, called Longshot, would allow high-altitude drops both from the P-8 and the older P-3 Orion.[4]

Performance

The aircraft can cruise at high altitude at nearly 926km/hr (500kt) and loiter at a speed of 333km/hr (180kt) over the sea at a low altitude of 60m.

Foreign users

India has selected the P-8 as its high-end MPA.[5]

The Royal Australian Air Force, which now operates P-3s, is likely to acquire P-8s. All current P-3 users are candidates, including Argentina, Canada, Chile, Germany, Greece, Italy, Japan, New Zealand, Pakistan, Portugal, Spain and the United Kingdom, although there is competition for the European users

References

  1. Raytheon, Raytheon P-8A MMA Radar Receives New AN/APY-10 Nomenclature
  2. Terma protects the new U.S. Navy P-8A Multi-Mission Maritime Aircraft
  3. ARINC Incorporated, CNS/ATM Gateway
  4. "Longshot: A Swooping HAAWC for Torpedos", Defense Industry Daily, 31 May 2007
  5. "P-8i: India’s Navy Picks Its Future High-End Maritime Patrol Aircraft", Defense Industry Daily, 14 February 2010
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