Ticonderoga-class cruiser

This article is about an American guided-missile cruiser class authorized in 1978. For other uses, see Ticonderoga (disambiguation).
USS Bunker Hill transiting in the Atlantic Ocean in 2010.
Class overview
Name: Ticonderoga class
Builders:
Operators:  United States Navy
Preceded by: Virginia class
Cost: ≈US$1 billion[1]
Built: 1980–1994
In commission: Since 1983
Completed: 27
Active: 22
Laid up: 4
Retired: 5 (CG-47 to 51)
General characteristics
Type: Guided missile cruiser
Displacement: Approx. 9,600 long tons (9,800 t) full load
Length: 567 feet (173 m)
Beam: 55 feet (16.8 meters)
Draft: 34 feet (10.2 meters)
Propulsion:
  • 4 × General Electric LM2500 gas turbine engines, 80,000 shaft horsepower (60,000 kW)
  • 2 × controllable-reversible pitch propellers
  • 2 × rudders
Speed: 32.5 knots (60 km/h; 37.4 mph)
Range: 6,000 nmi (11,000 km) at 20 kn (37 km/h); 3,300 nmi (6,100 km) at 30 kn (56 km/h).
Complement: 33 officers, 27 Chief Petty Officers, and approx. 340 enlisted
Sensors and
processing systems:
Electronic warfare
& decoys:
Armament:
Armor: Limited Kevlar splinter protection in critical areas
Aircraft carried: 2 × Sikorsky SH-60B or MH-60R Seahawk LAMPS III helicopters.

The Ticonderoga class of guided missile cruisers is a class of warships in the United States Navy, first ordered and authorized in the 1978 fiscal year. The class uses passive phased-array radar and was originally planned as a class of destroyers. However, the increased combat capability offered by the Aegis Combat System and the AN/SPY-1 radar system, together with space for an admiral and his staff, were used to justify the change of the classification from DDG (guided missile destroyer) to CG (guided-missile cruiser) shortly before the keels were laid down for Ticonderoga and Yorktown.

Ticonderoga-class guided-missile cruisers are multi-role warships. Their Mk 41 VLS can launch Tomahawk cruise missiles to strike strategic or tactical targets, or fire long-range antiaircraft Standard Missiles for defense against aircraft or anti-ship missiles. Their LAMPS III helicopters and sonar systems allow them to perform antisubmarine missions. Ticonderoga-class ships are designed to be elements of carrier battle groups or amphibious assault groups, as well as performing missions such as interdiction or escort.[2] With upgrades to their to AN/SPY-1 phased radar systems and their associated missile payloads as part of the Aegis Ballistic Missile Defense System, members of this class have also begun to demonstrate some promise as mobile anti-ballistic missile and anti-satellite weaponry platforms.

Of the 27 completed vessels, 19 were built by Ingalls Shipbuilding and eight by Bath Iron Works (BIW). All but one (Thomas S. Gates) of the ships in the class are named for noteworthy events in U.S. military history, and at least twelve—Ticonderoga, Cowpens, Anzio, Yorktown, Valley Forge, Bunker Hill, Antietam, San Jacinto, Lake Champlain, Philippine Sea, Princeton, Monterey, and Vella Gulf—share their names with World War II aircraft carriers. 22 ships were active in 2016, and expected to serve for 35 years since commissioning.

History

Shooting down Iran Air Flight 655

Main article: Iran Air Flight 655

One ship of the class, Vincennes, became infamous in 1988 when she shot down Iran Air Flight 655, resulting in 290 civilian deaths. The commanding officer of USS Vincennes, William C. Rogers III, had believed the airliner was an Iranian Air Force F-14 Tomcat fighter jet on an attack vector, based on reports of radar returns, revealed to be misinterpreted. The investigation report recommended that the AEGIS large screen display be changed to allow the display of altitude information on plots, and that stress factors on personnel using AEGIS be studied.[3]

Interception of United States satellite USA-193

Main article: Operation Burnt Frost

On 14 February 2008, the United States Department of Defense announced that Shiloh and Lake Erie would attempt to hit the dead satellite USA-193 over the North Pacific Ocean just before it would burn up on reentry.[4][5] On 20 February 2008, at approximately 22:30 EST (21 February, 03:30 UTC), an SM-3 missile was fired from Lake Erie and struck the satellite. The military intended that the missile's kinetic energy would rupture the hydrazine fuel tank allowing the toxic fuel to be consumed during re-entry.[6] The Department of Defense confirmed that the fuel tank had been directly hit by the missile.[7]

Possible early retirement

Due to Budget Control Act of 2011 requirements to cut the Defense Budget for FY2013 and subsequent years, plans were being considered to decommission some of the Ticonderoga-class cruisers.[8] For the U.S. Defense 2013 Budget Proposal, the U.S. Navy was to decommission seven cruisers early in fiscal years 2013 and 2014.[9]

Because of these retirements, the U.S. Navy was expected to fall short of its requirement for 94 missile defense cruisers and destroyers beginning in FY 2025 and continuing past the end of the 30-year planning period. While this is a new requirement as of 2011, and the U.S. Navy has historically never had so many large missile-armed surface combatants, the relative success of the AEGIS ballistic missile defense system has shifted this national security requirement onto the U.S. Navy.[10] Critics had charged that the early retirement of these cruisers would leave the Navy's ship fleet too small for the nation's defense tasks as the U.S. enacts a policy of "pivot" to the Western Pacific, a predominantly maritime theater. The U.S. House of Representatives passed a budget bill to require that these cruisers instead be refitted to handle the missile defense role.[11]

By October 2012, the U.S. Navy had decided not to retire four of the cruisers early in order to maintain the size of the fleet. Four Ticonderoga-class cruisers, plus 21 Arleigh Burke-class destroyers, are scheduled to be equipped for antiballistic missile and antisatellite operations.[12]

Design

Bunker Hill (rear) during a passing exercise in the Strait of Malacca
Ticonderoga–class cruisers were built on the same hull as the Spruance-class destroyer.

The Ticonderoga-class cruiser's design was based on that of the Spruance-class destroyer.[2] The Ticonderoga class introduced a new generation of guided missile warships based on the Aegis phased array radar that is capable of simultaneously scanning for threats, tracking targets, and guiding missiles to interception. When they were designed, they had the most powerful electronic warfare equipment in the U.S. Navy, as well as the most advanced underwater surveillance system. These ships were one of the first classes of warships to be built in modules, rather than being assembled from the bottom up.[2]

Operations research was used to study manpower requirements on the Ticonderoga class. It was found that four officers and 44 enlisted sailors could be removed from the ship's complement by removing traditional posts that had been made obsolete.[2] However, manpower savings by eliminating the very manpower-intensive Mk 26 GMLS and replacing it with the far more capable and versatile MK 41 Vertical Launching System (VLS) was harder to repeat with the Mk 45 127 mm (5") gun systems. The Aegis Cruisers are "Double Enders", and the only surface combatants in the fleet that can employ two 5" guns simultaneously until the USS Zumwalt DDG-1000 Class enters service. This capability gives it greater firepower via the two guns that can employ guided projectiles.

Vertical Launching System

An overhead view of the Ticonderoga class Lake Champlain, with VLS visible fore and aft as the gray boxes near the bow and stern of the ship.
The older Ticonderoga with the pre-VLS twin-arm launchers visible fore and aft.

In addition to the added radar capability, the Ticonderoga-class ships built after USS Thomas S. Gates included two Mark 41 Vertical Launching Systems (VLS). The two VLS allow the ship to have 122 missile storage and launching tubes that can carry a wide variety of missiles, including the Tomahawk cruise missile, Standard surface-to-air missile, Evolved Sea Sparrow surface-to-air missile, and ASROC antisubmarine warfare (ASW) guided rockets. More importantly, the VLS enables all missiles to be on full stand-by at any given time, shortening the warship's response time before firing. The original five ships (Ticonderoga, Yorktown, Vincennes, Valley Forge, and Thomas S. Gates) had Mark 26 twin-arm launchers that limited their missile capacity to a total of 88 missiles, and that could not fire the Tomahawk missile. After the end of the Cold War, the lower capabilities of the original five warships limited them to duties close to the home waters of the United States. These ships' superstructures were a modification of that on the Spruance-class destroyers, and were required to support two deck-houses (one forward for antennas forward and starboard), and the aft deck-house housed the aft and port antenna arrays. All Aegis cruisers are almost identical, with the exception of the Mk 26 GMLS, replaced by the Mk 41 VLS systems. The later Arleigh Burke-class Aegis destroyers are designed from-the-keel-up to carry the SPY-1D radars, and have them all clustered together on the forward deck-house, saving space and weight and simplifying cooling requirements. Radar support equipment is closer together, minimizing cable runs and concentrating support equipment. Standard missile loadout for a Ticonderoga cruiser is 80 SM-2 SAMs, 16 ASROC anti-submarine rockets, and 26 Tomahawk cruise missiles.[13]

The greater size and equipment on the CG-47-class warships increased displacement from 6,900 tons of the DD-963-class destroyers to 9,600 tons of displacement for the heavier cruisers. Aegis cruisers can steam in any ocean and conduct multi-warfare operations anywhere. Some cruisers reported some structural problems in early service after extended periods in extremely heavy seas, which were generally corrected from the late 1980s to the mid-1990s. Several ships had superstructure cracks which were repaired.

Upgrades

Originally, the U.S. Navy had intended to replace its fleet of Ticonderoga-class guided-missile cruisers with cruisers produced as part of the CG(X) missile cruiser program; however, severe budget cuts from the 21st century surface combatant program coupled with the increasing cost of the Zumwalt-class guided missile destroyer program resulted in the CG(X) program being canceled. The Ticonderoga-class cruisers were instead to be replaced by Flight III Arleigh Burke-class guided-missile destroyers.[14]

All five of the twin-arm (Mk-26) cruisers have been decommissioned. In 2003, the newer 22 of the 27 ships (CG-52 to CG-73) in the class were upgraded to keep them combat-relevant, giving the ships a service life of 35 years.[15] In the years leading up to their decommissioning, the five twin-arm ships had been assigned primarily home-waters duties, acting as command ships for destroyer squadrons assigned to the eastern Pacific and western Atlantic areas.

As of July 2013 12 cruisers have completed hull, mechanical, and electrical (HM&E) upgrades and 8 cruisers have had combat systems upgrades. These include an upgrade of the AEGIS computational system with new computers and equipment cabinets, the SPQ-9B radar system upgrade introducing an increased capability over just gunfire control, some optical fiber data communications and software upgrades, and modifications to the vertical launch system to fire the RIM-162 ESSM. The most recent upgrade packages will include SM-6 and Naval Integrated Fire Control – Counter Air (NIFC-CA) capability. Another upgrade is improving the SQQ-89A(V)15 sonar with a multi-function towed array. Hull, sonar, radar, electrical, computer, and weapons systems upgrades can cost up to $250 million per ship.[16]

In its 2015 budget request the Navy outlined a plan to operate 11 cruisers, while the other 11 were upgraded to a new standard. The upgraded cruisers would then start replacing the older ships, which would be retired starting in 2019.[17] This would retain one cruiser per CVN group to host the group's air warfare commander, a role for which the DDGs do not have sufficient facilities. Flight III Arleigh Burke destroyers equipped with the Air Missile Defense Radar give enhanced coverage, but putting the radar on standard DDG hulls does not allow enough room for extra staff and command and control facilities for the air warfare commander; DDGs can be used tactically for air defense, but they augment CGs that provide command and control in a battle group and are more used for other missions such as defending other fleet units and keeping sea lanes open. Congress opposed the plan on the grounds that it makes it easier for Navy officials to completely retire the ships once out of service; the Navy would have to retire all cruisers from the fleet by 2028 if all are kept in service, while deactivating half and gradually returning them into service could make 11 cruisers last from 2035 to 2045. There is no current CG replacement program, as most funding is committed to the Ohio Replacement Submarine, so work on a new cruiser is expected to begin in the mid-2020s, and begin fielding by the mid-2030s.[18]

Ships in class

Name Number Builder Launched Commissioned Decommissioned Status Link
Mark-26 Twin-Arm Missile Launcher Variant
Ticonderoga CG-47 Ingalls Shipbuilding 25 April 1981 22 January 1983 30 September 2004 Stricken, to be disposed of by scrapping
Yorktown CG-48 Ingalls Shipbuilding 17 January 1983 4 July 1984 10 December 2004 Stricken, to be disposed of by scrapping
Vincennes CG-49 Ingalls Shipbuilding 14 January 1984 6 July 1985 29 June 2005 Scrapped 2011
Valley Forge CG-50 Ingalls Shipbuilding 23 June 1984 18 January 1986 30 August 2004 Sunk as target 2006
Thomas S. Gates CG-51 Bath Iron Works 14 December 1985 22 August 1987 16 December 2005 Stricken, to be disposed of by scrapping
 Name   Number   Builder   Launched   Commissioned   Home port   Status   Link 
Mark-41 Vertical Launch System (VLS) Variant
Bunker Hill CG-52 Ingalls Shipbuilding 11 March 1985 20 September 1986 San Diego, California in active service
Mobile Bay CG-53 Ingalls Shipbuilding 22 August 1985 21 February 1987 San Diego, California in active service
Antietam CG-54 Ingalls Shipbuilding 14 February 1986 6 June 1987 Yokosuka, Japan in active service
Leyte Gulf CG-55 Ingalls Shipbuilding 20 June 1986 26 September 1987 Norfolk, Virginia in active service
San Jacinto CG-56 Ingalls Shipbuilding 14 November 1986 23 January 1988 Norfolk, Virginia in active service
Lake Champlain CG-57 Ingalls Shipbuilding 3 April 1987 12 August 1988 San Diego, California in active service
Philippine Sea CG-58 Bath Iron Works 12 July 1987 18 March 1989 Mayport, Florida in active service
Princeton CG-59 Ingalls Shipbuilding 2 October 1987 11 February 1989 San Diego, California in active service
Normandy CG-60 Bath Iron Works 19 March 1988 9 December 1989 Norfolk, Virginia in active service
Monterey CG-61 Bath Iron Works 23 October 1988 16 June 1990 Norfolk, Virginia in active service
Chancellorsville CG-62 Ingalls Shipbuilding 15 July 1988 4 November 1989 Yokosuka, Japan in active service
Cowpens CG-63 Bath Iron Works 11 March 1989 9 March 1991 San Diego, California in active service
Gettysburg CG-64 Bath Iron Works 22 July 1989 22 June 1991 Mayport, Florida in active service
Chosin CG-65 Ingalls Shipbuilding 1 September 1989 12 January 1991 Pearl Harbor, Hawaii in active service
Hué City CG-66 Ingalls Shipbuilding 1 June 1990 14 September 1991 Mayport, Florida in active service
Shiloh CG-67 Bath Iron Works 8 September 1990 18 July 1992 Yokosuka, Japan in active service
Anzio CG-68 Ingalls Shipbuilding 2 November 1990 2 May 1992 Norfolk, Virginia in active service
Vicksburg
(ex-Port Royal)
CG-69 Ingalls Shipbuilding 2 August 1991 14 November 1992 Mayport, Florida in active service
Lake Erie CG-70 Bath Iron Works 13 July 1991 10 May 1993 San Diego, California in active service
Cape St. George CG-71 Ingalls Shipbuilding 10 January 1992 12 June 1993 San Diego, California in active service
Vella Gulf CG-72 Ingalls Shipbuilding 13 June 1992 18 September 1993 Norfolk, Virginia in active service
Port Royal CG-73 Ingalls Shipbuilding 20 November 1992 4 July 1994 Pearl Harbor, Hawaii in active service

See also

Notes

    References

    1. "United States Navy Fact File Cruisers". America's Navy. United States Navy. Retrieved 11 April 2015.
    2. 1 2 3 4 "CG-47 Ticonderoga (class)". Federation of American Scientists. Retrieved 26 April 2015.
    3. Fogarty, William M. (28 July 1988). Formal Investigation into the Circumstances Surrounding the Downing of Iran Air Flight 655 on July 3, 1988 (PDF) (Report). CM-1485-88 / 93-FOI-0184. Retrieved 28 February 2012.
    4. Mount, Mike (14 February 2008). "Officials: U.S. to try to shoot down errant satellite". CNN. Retrieved 25 April 2015.
    5. Roberts, Kristin (14 February 2008). "Pentagon plans to shoot down disabled satellite". Reuters. Retrieved 25 April 2015.
    6. Shanker, Thom (21 February 2008). "Missile Strikes a Spy Satellite Falling From Its Orbit". The New York Times. Retrieved 25 April 2015.
    7. "Navy Succeeds In Intercepting Non-Functioning Satellite". NNS. 20 February 2008. Retrieved 25 April 2015.
    8. Cavas, Christopher P. (26 January 2012). "Navy avoids most of Pentagon's latest cuts". NavyTimes. Retrieved 25 April 2015.
    9. Fellman, Sam (13 February 2012). "Navy budget request avoids deep cuts". Navy Times. Retrieved 25 April 2015.
    10. O'Rourke, Ronald. "CRS-RL32109 Navy DDG-51 and DDG-1000 Destroyer Programs: Background and Issues for Congress." Congressional Research Service, 2 March 2012.
    11. Dutton, Nick (28 May 2012). "US Navy: 'Hollow' force or 'the best in the world'?". WTVR 6. CNN. Retrieved 25 April 2015.
    12. "American Cruisers Not Allowed To Retire". Strategypage.com. 2 October 2012. Retrieved 25 April 2015.
    13. Comparison: Russian Navy Slava-class and US Navy Ticonderoga-class Cruisers in Combat - Navyrecognition.com, 12 March 2016
    14. "Navy DDG-51 and DDG-1000 Destroyer Programs: Background and Issues for Congress". Open CRS. Archived from the original on October 4, 2011. Retrieved 2011-12-28.
    15. "The Ticonderoga (CG 47) - Class". navysite.de. Retrieved 25 April 2015.
    16. Osborn, Kris (9 July 2013). "Navy Upgrades More Than a Third of Cruisers". DoDBuzz.com. Retrieved 25 April 2015.
    17. Axe, David (13 March 2014). "The Navy's New Cruiser Is … the Navy's Old Cruiser". medium.com. War is Boring. Retrieved 13 March 2014.
    18. Cavas, Christopher P. (6 July 2014). "US Navy's Cruiser Problem". www.defensenews.com. Gannett Government Media. Retrieved 6 July 2014.
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