P-3 Orion: Difference between revisions

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[[Image:P-3.jpg|thumb|left|300 px|P-3 Orion]]
[[Image:P-3.jpg|thumb|left|300 px|P-3 Orion]]
A land-based aircraft originally developed for the [[U.S. Navy]] for [[anti-submarine warfare]] (ASW), the '''P-3 Orion''' soon took on the broader role of a [[maritime patrol aircraft]]. With the decreasing emphasis on "blue-water", open-ocean, ASW with the end of the [[Cold War]], the Orion has been modified so it is useful for surveillance over land, as well as ASW, ASuW, and [[C3I-ISR#Evolution of C3I-ISR aircraft | surveillance and reconnaissance]] in [[littoral warfare]].
A land-based aircraft originally developed for the [[United States Navy]] for [[anti-submarine warfare]] (ASW), the '''P-3 Orion''' soon took on the broader role of a [[maritime patrol aircraft]]. With the decreasing emphasis on "blue-water", open-ocean, ASW with the end of the [[Cold War]], the Orion has been modified so it is useful for surveillance over land, as well as ASW, ASuW, and [[C3I-ISR#Evolution of C3I-ISR aircraft | surveillance and reconnaissance]] in [[littoral warfare]].


The Navy has shifted the P-3C’s operational emphasis to the littoral regions and is improving the [[anti-surface warfare]] (ASUW) capabilities of the P-3C. While it is to be replaced by the [[P-8 Poseidon]], it will be in service through the early 21st century.<ref name=NavFactsheet>{{citation
The Navy has shifted the P-3C's operational emphasis to the littoral regions and is improving the [[anti-surface warfare]] (ASUW) capabilities of the P-3C. While it is to be replaced by the [[P-8 Poseidon]], it will be in service through the early 21st century.<ref name=NavFactsheet>{{citation
  | title = P-3C Orion long range ASW aircraft  
  | title = P-3C Orion long range ASW aircraft  
  | publisher = [[U.S. Navy]]
  | publisher = [[United States Navy]]
  | url = http://www.navy.mil/navydata/fact_display.asp?cid=1100&tid=1400&ct=1}}</ref>
  | url = http://www.navy.mil/navydata/fact_display.asp?cid=1100&tid=1400&ct=1}}</ref>


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  | url = http://www.aeroflight.co.uk/types/usa/lockheed_martin/p-3/P-3_Orion.htm}}</ref>
  | url = http://www.aeroflight.co.uk/types/usa/lockheed_martin/p-3/P-3_Orion.htm}}</ref>
*Update I (1975): new data processing avionics software.  
*Update I (1975): new data processing avionics software.  
*Update II ((1977) included an infrared detection system, a sonobuoy reference system, the Harpoon anti-ship missile and 28-channel magnetic tape recorder/reproducer.
*Update II ((1977) included an infrared detection system, a [[sonobuoy]] reference system, the Harpoon anti-ship missile and 28-channel magnetic tape recorder/reproducer.
*Update III (1981): Doubled the number of sonobuoy channels that could be processed.
*Update III (1981): Doubled the number of sonobuoy channels that could be processed.


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====Self-protection====
====Self-protection====
*[[AAR-47|AN/AAR-47]] Missile Warning System [MWS] is a passive electro-optical system designed to incoming surface-to-air and air-to-air missiles, linked automatically to the  
*[[AAR-47|AN/AAR-47]] Missile Warning System [MWS] is a passive electro-optical system designed to incoming surface-to-air and air-to-air missiles, linked automatically to the  
*[[ALE-47|AN/ALE-47]] Countermeasures Dispensing System [CMDS] will be used for dispensing flares, chaff, non-programmable expendable jammers, and programmable jammers.  
*ALE-47 Countermeasures Dispensing System [CMDS] will be used for dispensing flares, chaff, non-programmable expendable jammers, and programmable jammers.  
====Anti-surface warfare====
====Anti-surface warfare====
Avionics supporting ASuW include:
Avionics supporting ASuW include:
*[[AAS-36|AN/AAS-36A]] Infrared Detecting Set [IRDS] operating both in [[forward-looking infrared|thermal imaging]] and visual light modes.
*[[AAS-36|AN/AAS-36A]] Infrared Detecting Set [IRDS] operating both in [[forward-looking infrared|thermal imaging]] and visual light modes.
*[[AVX-1|AN/AVX-1]] Electro-Optical Sensor System [EOSS] stabilized day to [[night vision device]].
*[[AVX-1|AN/AVX-1]] Electro-Optical Sensor System [EOSS] stabilized day to [[night vision device]].
*[[APS-135|AN/APS-137B(V)5]] [[radar]] with navigation, weather, and [[radar#synthetic aperture radar|SAR]] and [[radar#inverse synthetic aperture radar|ISAR imaging]]. is capable of multimode operation to provide periscope and small target detection, navigation, weather avoidance, long range surface search and Synthetic Aperture Radar (SAR) and ISAR imaging modes. SAR is best against fixed targets and ISAR against moving targets including surfaced submarines. All output can be recorded.\
*[[APS-135|AN/APS-137B(V)5]] [[radar]] with navigation, weather, and [[radar#synthetic aperture radar|SAR]] and [[radar#inverse synthetic aperture radar|ISAR imaging]]. is capable of multimode operation to provide periscope and small target detection, navigation, weather avoidance, long range surface search and Synthetic Aperture Radar (SAR) and ISAR imaging modes. SAR is best against fixed targets and ISAR against moving targets including surfaced submarines. All output can be recorded.
====Electronic warfare and electronic intelligence====
====Electronic warfare and electronic intelligence====
*[[EP-2060| EP-2060 Pulse Analyzer]] with [[ALR-66| AN/ALR-66C(V)3]] [[ELINT]]/[[electronic warfare|electronic support]] receiver. The C version incorporates a spinning [[direction-finding]] antenna.  
*[[EP-2060| EP-2060 Pulse Analyzer]] with [[ALR-66| AN/ALR-66C(V)3]] [[ELINT]]/[[electronic warfare|electronic support]] receiver. The C version incorporates a spinning [[direction-finding]] antenna.  
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The principal sensors are passive and active [[sonobuoy]] dropped by the P-3 or cooperating aircraft. Magnetic Anomaly Detection is a supplementary system, as well as radar detection of periscopes or surfaced submarines. Never to be forgotten is the human eye; submarines at shallow depth can be seen in clear water.
The principal sensors are passive and active [[sonobuoy]] dropped by the P-3 or cooperating aircraft. Magnetic Anomaly Detection is a supplementary system, as well as radar detection of periscopes or surfaced submarines. Never to be forgotten is the human eye; submarines at shallow depth can be seen in clear water.


A wide range of equipment receives, processes, and displays information from them:<ref name=P3RU>{{citation
A wide range of equipment receives, processes, and displays information from them:<ref name=P3FAS>{{citation
  | url = http://topgun.rin.ru/cgi-bin/units.pl?field=3&unit=2268&page_num=2&page_max_e=6&lng=eng
  | url = http://www.fas.org/programs/ssp/man/uswpns/air/asw/p3.html
  | title = P-3C Orion}}</ref>
  | title = P-3C Orion}}</ref>
:*[[USQ-78|AN/USQ-78(V)]] Single Advanced Signal Processor system Display Control Unit
:*[[USQ-78|AN/USQ-78(V)]] Single Advanced Signal Processor system Display Control Unit
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::*TS-4271/UYS-1(V)10 Analyzer Detecting Set, also called the AU, is installed with a primary function of processing acoustic signals through the use of a Spectrum Analyzer TS-4271/UYS-1(V).  
::*TS-4271/UYS-1(V)10 Analyzer Detecting Set, also called the AU, is installed with a primary function of processing acoustic signals through the use of a Spectrum Analyzer TS-4271/UYS-1(V).  
::*CP-1808/USQ-78(V) SASP Display Control Unit (DCU)'
::*CP-1808/USQ-78(V) SASP Display Control Unit (DCU)'
:*[[ARS-5|AN/ARS-5]] Receiver-Converter Sonobuoy Reference System not only allows monitoring of sonoboys at a distance, but, when one of the remote buoys detects a signal, the display unit considers the aircraft's current course, the bearing to the target, and the display appears with the "fly to" bearing.
:*[[ARS-5|AN/ARS-5]] Receiver-Converter Sonobuoy Reference System not only allows monitoring of sonobuoys at a distance, but, when one of the remote buoys detects a signal, the display unit considers the aircraft's current course, the bearing to the target, and the display appears with the "fly to" bearing.
===Communications===
===Communications===
* [[ARC-230|AN/ARC-230]] [[ITU frequency bands|High Frequency (HF)]]  [[radio]], built around Rockwell-Collins HF-121C voice and data operation at 400W transmit power<ref name=>{{citation
* [[ARC-230|AN/ARC-230]] [[ITU frequency bands|High Frequency (HF)]]  [[radio]], built around Rockwell-Collins HF-121C voice and data operation at 400W transmit power<ref name=>{{citation
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Primary user: U.S. Navy; many foreign operators
Primary user: U.S. Navy; many foreign operators
==General characteristics==
==General characteristics==
*Primary Function: Antisubmarine warfare(ASW)/Antisurface warfare (ASUW).<ref name=NavFactsheet />
*Primary Function: Antisubmarine warfare(ASW)/Antisurface warfare (ASUW).<ref name=NavFactsheet />

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P-3 Orion

A land-based aircraft originally developed for the United States Navy for anti-submarine warfare (ASW), the P-3 Orion soon took on the broader role of a maritime patrol aircraft. With the decreasing emphasis on "blue-water", open-ocean, ASW with the end of the Cold War, the Orion has been modified so it is useful for surveillance over land, as well as ASW, ASuW, and surveillance and reconnaissance in littoral warfare.

The Navy has shifted the P-3C's operational emphasis to the littoral regions and is improving the anti-surface warfare (ASUW) capabilities of the P-3C. While it is to be replaced by the P-8 Poseidon, it will be in service through the early 21st century.[1]

History and versions

The original version was based on the L-188 Electra commercial airliner, followed by continuing improvements:[2]

  • Update I (1975): new data processing avionics software.
  • Update II ((1977) included an infrared detection system, a sonobuoy reference system, the Harpoon anti-ship missile and 28-channel magnetic tape recorder/reproducer.
  • Update III (1981): Doubled the number of sonobuoy channels that could be processed.

Avionics

Flight and navigation

  • Protected Instrument Landing System
  • IFF Mode S and Required Navigation Performance Area Navigation,
  • GPS
  • AN/ASQ-60 Autopilot

Mission-related

A new Littoral Surveillance Radar System (LSRS), with maritime, littoral, and overland targeting capability, has been added to some P-3's assigned to Patrol Squadron 46 (VP-46) based at Whidbey Island Naval Air Station in the state of Washington.

Network-centric warfare

The OZ-72 and the AN/USC-42(V)3 both link to the OASIS III, which can accept GPS-guided targeting information from onboard sensors and communicate it, over the horizon if needed, via JTIDS Link 16

  • AN/USC-42(V)3 Miniaturized Demand Assigned Multiple Access [Mini-DAMA] will provide for secure voice communications. Mini-DAMA provides for the transmission, reception, and decryption of OTCIXS data and the subsequent routing of that data to the OASIS III TDP.
  • OZ-72(V) Multi-Mission Advanced Tactical Terminal [MATT] system will provide Tactical Receive Equipment (TRE) capability to receive and decrypt three simultaneous channels of Tactical Data Information Exchange Subsystem (TADIXS-B), Tactical Related Applications (TRAP), and Tactical Information Broadcast Service (TIBS) information
  • Over-the-Horizon Airborne Sensor Information System [OASIS III], to process and correlate all data provided via MATT and Mini-DAMA. This links to the Officer in Tactical Command Information Exchange System (OTCIXS) message link]

Self-protection

  • AN/AAR-47 Missile Warning System [MWS] is a passive electro-optical system designed to incoming surface-to-air and air-to-air missiles, linked automatically to the
  • ALE-47 Countermeasures Dispensing System [CMDS] will be used for dispensing flares, chaff, non-programmable expendable jammers, and programmable jammers.

Anti-surface warfare

Avionics supporting ASuW include:

  • AN/AAS-36A Infrared Detecting Set [IRDS] operating both in thermal imaging and visual light modes.
  • AN/AVX-1 Electro-Optical Sensor System [EOSS] stabilized day to night vision device.
  • AN/APS-137B(V)5 radar with navigation, weather, and SAR and ISAR imaging. is capable of multimode operation to provide periscope and small target detection, navigation, weather avoidance, long range surface search and Synthetic Aperture Radar (SAR) and ISAR imaging modes. SAR is best against fixed targets and ISAR against moving targets including surfaced submarines. All output can be recorded.

Electronic warfare and electronic intelligence

Antisubmarine warfare

The principal sensors are passive and active sonobuoy dropped by the P-3 or cooperating aircraft. Magnetic Anomaly Detection is a supplementary system, as well as radar detection of periscopes or surfaced submarines. Never to be forgotten is the human eye; submarines at shallow depth can be seen in clear water.

A wide range of equipment receives, processes, and displays information from them:[3]

  • AN/USQ-78(V) Single Advanced Signal Processor system Display Control Unit
  • AN/ALQ-158(V) Adaptive Controlled Phased Array System [ACPA] VHF sonobuoy receiving antenna system amplifies reception of sonobuoy signals
  • AN/ARR-78(V)1 Advanced Sonobuoy Communications Link [ASCL] Receiver contains 20 receiver modules, each capable of accepting RF operating channels 1-99 (those sonobuoy channels now in use and those being developed for future use)
  • AN/UYS-1(V) Single Advanced Signal Processor System (SASP) of two basic subsystems, both controlled by :
  • TS-4271/UYS-1(V)10 Analyzer Detecting Set, also called the AU, is installed with a primary function of processing acoustic signals through the use of a Spectrum Analyzer TS-4271/UYS-1(V).
  • CP-1808/USQ-78(V) SASP Display Control Unit (DCU)'
  • AN/ARS-5 Receiver-Converter Sonobuoy Reference System not only allows monitoring of sonobuoys at a distance, but, when one of the remote buoys detects a signal, the display unit considers the aircraft's current course, the bearing to the target, and the display appears with the "fly to" bearing.

Communications

  • AN/ASX-6 Multi-Mode Imaging System (MMIS)
  • Telephonics Secure Digital Intercommunications System (SDI)
  • over-the-horizon C4I international marine/maritime satellite (INMARSAT).

Weapons

Carries 20,000 pounds:

ASuW

Updated Orions can engage surface targets both on water and inland using air-to-surface missiles of several types. The basic AGM-84 Harpoon is a long-range anti-shipping missile, but the AGM-84 SLAM is a long-range land attack missile with a high degree of commonality.

For shorter range engagements, the aircraft uses the AGM-65 Maverick, which has a wide range of sensor and warhead combinations, as well as extreme precision. Most often, the passive infrared seeker is used.

ASW

Variants and operators

Primary user: U.S. Navy; many foreign operators

General characteristics

  • Primary Function: Antisubmarine warfare(ASW)/Antisurface warfare (ASUW).[1]
  • Contractor: Lockheed Martin Aeronautical Systems Company.
  • Date Deployed: First flight, November 1959; Operational, P-3A August 1962 and P-3C August 1969.
  • Unit Cost: $36 million.
  • Propulsion: Four Allison T-56-A-14 turboprop engines (4,600 hp each)
  • Length: 116.7 feet.
  • Height: 33.7 feet.
  • Wingspan: 99.6 feet.
  • Weight: Maximum takeoff, 139,760 pounds
  • Airspeed: Maximum, 411 knots; cruise, 328 knots
  • Ceiling: 28,300 feet.
  • Range: Mission radius, 2,380 nautical miles; for three hours on-station at 1,500 feet, 1,346 nautical miles.
  • Crew: (P-3C) three pilots, two naval flight officers, two flight engineers, three sensor operators, one in-flight technician.

References