RIM-67 Standard

Last updated
RIM-67 Standard ER
RIM-67B Standard.JPEG
TypeExtended range surface-to-air missile with anti-ship capability
Place of originUnited States
Service history
In service1981–present (RIM-67B), 1999–present (RIM-156A)
Production history
Manufacturer Raytheon Missiles & Defense
Unit cost$409,000
Specifications
Mass2,980 lb (1,350 kg)
SM-2ER Block IV: 3,225 lb (1,463 kg)
Length26.2 ft (8.0 m)
SM-2ER Block IV: 21 ft 6 in (6.55 m) with booster
DiameterSM-2ER Block IV:
Main body: 13.5 in (34.3 cm)
Booster: 21 in (53.3 cm)
Wingspan5 ft 2 in (1.57 m)
SM-2ER Block IV: 3 ft 6 in (1.07 m)
WarheadRadar proximity and contact fuse, high explosive 137 lb (62 kg) continuous rod, later blast fragmentation
EngineTwo-stage, solid-fuel rocket; sustainer motor and booster motor
Operational
range
65–100 nmi (120–185 km)
SM-2ER Block IV: 100–200 nmi (190–370 km) [1]
Flight ceiling80,200 ft (24,400 m)
Maximum speed Mach 3.5
Guidance
system
Inertial/SARH
Launch
platform
Surface ship

The RIM-67 Standard ER (SM-1ER/SM-2ER) is an extended range surface-to-air missile (SAM) with a secondary anti-ship capability, originally developed for the United States Navy (USN). The RIM-67 was developed as a replacement for the RIM-8 Talos, a 1950s system deployed on a variety of USN ships, and eventually replaced the RIM-2 Terrier as well, since it was of a similar size and fitted existing Terrier launchers and magazines. The RIM-66 Standard MR was essentially the same missile without the booster stage, designed to replace the RIM-24 Tartar. The RIM-66/67 series thus became the US Navy's universal SAM system, hence the designation "Standard Missile".

Contents

RIM-67A SM-1 Extended Range

The RIM-67A (SM-1ER Block I) was the Navy's replacement for RIM-8 Talos missile. Improved technology allowed the RIM-67 to be reduced to the size of the earlier RIM-2 Terrier missile. Existing ships with the Mk86 guided missile fire control system, or "Terrier" were adapted to employ the new missile in place of the older RIM-2 Terrier missile. Ships that switched from the RIM-2 Terrier to the RIM-67A were still referred to as Terrier ships even though they were equipped with the newer missile. [2]

RIM-67B and RIM-156 SM-2 Extended Range

The second generation of Standard missile, the Standard Missile 2, was developed for the Aegis Combat System, and the New Threat Upgrade (NTU) program that was planned for existing Terrier and Tartar ships. The destroyer USS Mahan served as the test platform for the development of the CG/SM-2 (ER) missile program project. The principal change over the Standard missile 1 is the introduction of inertial guidance for each phase of the missile's flight except the terminal phase where semi-active homing was retained. This design change was made so that missiles could time share illumination radars and enable equipped ships to defend against saturation missile attacks. [2]

Terrier ships reequipped as part of the New Threat Upgrade were refit to operate the RIM-67B (SM-2ER Block II) missile. However, Aegis ships were not equipped with launchers that had space enough for the longer RIM-67B. [2]

The RIM-156A Standard SM-2ER Block IV with the Mk 72 booster was developed to compensate for the lack of a long range SAM for the Ticonderoga class of Aegis cruisers. The Mk72 booster allows the RIM-156A to fit into the Mark 41 Vertical Launching System. This configuration can also be used for Terminal phase Ballistic Missile Defense. [3]

An SM-2ER on the rail inside USS Mahan. USS Mahan SM-2ER on the rail.jpg
An SM-2ER on the rail inside USS Mahan.

There was a plan to build a nuclear armed standard missile mounting a W81 nuclear warhead as a replacement for the earlier Nuclear Terrier missile (RIM-2D). The USN rescinded the requirement for the nuclear armed missile in the 1980s, and the project was canceled. [4]

The Standard can also be used against ships, either at line-of-sight range using its semi-active homing mode, or over the horizon using inertial guidance and terminal infrared homing. [5]

RIM-174 Standard Missile 6 ERAM is a new generation of Standard extended range missiles, which became operational in 2013. [6]

Operational history

During the Iran–Iraq War (1980–1988) the United States deployed Standard missiles to protect its navy, as well as other ships in the Persian Gulf from the threat of Iranian attacks. According to the Iranian Air Force, its F-4 Phantom IIs were engaged by SM-2ERs but managed to evade them, with one aircraft sustaining non-fatal damage due to shrapnel. [7] During the same war the United States Navy mistakenly shot down an Iranian civilian airliner, Iran Air Flight 655 using two SM-2 missiles. [8]

On April 18, 1988, during Operation Praying Mantis, the frigate USS Simpson fired four RIM-66 Standard missiles and the cruiser USS Wainwright fired two RIM-67 Standard missiles at Joshan, an Iranian Kaman-class (La Combattante II type) missile boat. The attacks destroyed the Iranian ship's superstructure but did not sink it. [2]

Deployment

RIM-67A Launching RIM-67A launch.jpg
RIM-67A Launching
RIM-67 intercepting Firebee drone in 1980 test. RIM-67 intercepts Firebee drone at White Sands 1980.jpg
RIM-67 intercepting Firebee drone in 1980 test.

RIM-67 Standard was deployed on ships of the following classes, replacing the RIM-2 Terrier, and it never was VLS-capable. All of the ships used the AN/SPG-55 for guidance. The Mk10 guided missile launching system was used as the launching system. New Threat Upgrade equipped vessels operated the RIM-67B which used inertial guidance for every phase of the intercept except for the terminal phase where the AN/SPG-55 radar illuminates the target.

The RIM-156 Standard Block IV, is a version that has been developed for the Aegis Combat System it has a smaller compact sized booster stage for firing from the Mk41 Vertical Launching System. Like the earlier RIM-67B it employs inertial/command guidance with terminal semi-active homing.

The last vessel to operate the RIM-67 was the Italian cruiser Vittorio Veneto which was retired in 2003. The RIM-174 Standard ERAM or Standard Missile 6 has superseded the RIM-156A in production. The RIM-156A remains in service as of 2010. [2]

RIM-67 Standard missiles have been withdrawn from service, remaining rounds are being re-manufactured in to GQM-163 Coyote supersonic targets. [2]

Variants

A RIM-156A (VLS version of the RIM-67) launching from a VLS cell on USS Lake Erie in 2008. SM-2 Block IV 080605-N-0000X-006.jpg
A RIM-156A (VLS version of the RIM-67) launching from a VLS cell on USS Lake Erie in 2008.
Designation BlockNotes
RIM-67ASM-1ER Block I Terrier Upgrade
  • Essentially identical to the corresponding SM-1MR missile, except for the propulsion
  • Atlantic Research Corp. MK 30 solid-fuel rocket sustainer motor
  • Hercules MK 12 booster
  • MK 51 continuous-rod warhead
RIM-67BSM-2ER Block I New Threat Upgrade. Entered service in 1980.
  • Inertial Guidance System
  • Monopulse seeker for terminal homing
RIM-67CSM-2ER Block IINew Threat Upgrade
  • Introduced Hercules MK 70 booster, almost doubling the effective range
  • MK 115 blast-fragmentation warhead
RIM-67DSM-2ER Block IIINew Threat Upgrade
  • MK 30 MOD 4 sustainer engine
  • MK 45 MOD 8 proximity fuze (also known as TDD – Target Detection Device)
RIM-67DSM-2ER Block IIIC [9] New Threat Upgrade for advanced anti-ship missiles and aircraft
  • Active radar seeker
RIM-156A

(ex-RIM-67E)

SM-2ER Block IVDesigned for Aegis VLS ships. Initial Operational Capability was declared in August 1999.
  • Finless MK 72 booster that uses thrust-vectoring control
  • MK 45 MOD 10 TDD, for improved performance against high-performance, low-RCS threats
  • Guidance and control modifications for better performance in severe ECM environments
  • A developmental step toward the Navy Area Theater Ballistic Missile Defense (NATBMD) missile
RIM-156BSM-2ER Block IVADesigned for modified Aegis VLS ships capable of tracking both TBM's and aircraft.
  • Dual-mode RF/IIR (Radio Frequency/Imaging Infrared) seeker
  • Upgraded MK 125 warhead package
  • Enhanced autopilot for the anti-TBM mission

Cancelled as a part of the whole NATBMD program in December 2001.

See also

Related Research Articles

<span class="mw-page-title-main">RUR-5 ASROC</span> Anti-submarine missile system

The RUR-5 ASROC is an all-weather, all sea-conditions anti-submarine missile system. Developed by the United States Navy in the 1950s, it was deployed in the 1960s, updated in the 1990s, and eventually installed on over 200 USN surface ships, specifically cruisers, destroyers, and frigates. The ASROC has been deployed on scores of warships of many other navies, including Canada, Germany, Italy, Japan, the Republic of China, Greece, Pakistan and others.

<span class="mw-page-title-main">Aegis Combat System</span> American integrated naval weapons system developed by RCA and produced by Lockheed Martin

The Aegis Combat System is an American integrated naval weapons system, which uses computers and radars to track and guide weapons to destroy enemy targets. It was developed by the Missile and Surface Radar Division of RCA, and it is now produced by Lockheed Martin.

Standard Missile refers to a family of American-made shipborne guided missiles:

USS <i>Reeves</i> (DLG-24) Leahy-class cruiser of the US Navy (in service 1964-93)

USS Reeves (DLG/CG-24), a United States Navy ship named after Admiral Joseph Mason Reeves, was a Leahy-class cruiser built by the Puget Sound Naval Shipyard, in Bremerton, Washington.

<span class="mw-page-title-main">Aegis Ballistic Missile Defense System</span> United States Navy and Missile Defense Agency anti-ballistic missile program

The Aegis ballistic missile defense system, also known as Sea-Based Midcourse, is a Missile Defense Agency program under the United States Department of Defense developed to provide missile defense against short and intermediate-range ballistic missiles. The program is part of the United States national missile defense strategy and European NATO missile defense system.

<span class="mw-page-title-main">RIM-2 Terrier</span> Medium Range Surface-to-air missile

The Convair RIM-2 Terrier was a two-stage medium-range naval surface-to-air missile (SAM), among the earliest SAMs to equip United States Navy ships. It underwent significant upgrades while in service, starting with beam-riding guidance with a 10-nautical-mile (19 km) range at a speed of Mach 1.8 and ending as a semi-active radar homing (SARH) system with a range of 40 nmi (74 km) at speeds as high as Mach 3. It was replaced in service by the RIM-67 Standard ER (SM-1ER).

<i>Virginia</i>-class cruiser Nuclear guided-missile cruiser class of the US Navy

The Virginia class were four nuclear-powered, guided-missile cruisers that served in the United States Navy until the mid-to-late 1990s. The double-ended cruisers were commissioned between 1976 and 1980. They were the final class of nuclear-powered cruisers completed and the last ships ordered as Destroyer Leaders under the pre-1975 classification system.

<span class="mw-page-title-main">RIM-24 Tartar</span> Medium range surface-to-air missile

The General Dynamics RIM-24 Tartar was a medium-range naval surface-to-air missile (SAM), among the earliest SAMs to equip United States Navy ships. The Tartar was the third of the so-called "3 Ts", the three primary SAMs the Navy fielded in the 1960s and 1970s, the others being the RIM-2 Terrier and RIM-8 Talos.

<span class="mw-page-title-main">Mark 13 missile launcher</span> Guided Missile Launching System

The Mark 13 guided missile launching system (GMLS) is a single-arm missile launcher designed for use on frigates and other military vessels. Because of its distinctive single-armed design, the Mark 13 is often referred to as the "one-armed bandit".

<span class="mw-page-title-main">RIM-8 Talos</span> U.S. Navy surface-to-air missile (1955–1979)

Bendix RIM-8 Talos was a long-range naval surface-to-air missile (SAM), among the earliest SAMs to equip United States Navy ships. The Talos used radar beam riding for guidance to the vicinity of its target, and semi-active radar homing (SARH) for terminal guidance. The four antennas surrounding the nose were SARH receivers, which functioned as a continuous wave interferometer. A solid rocket booster provided thrust for launch and a Bendix ramjet powered its flight to the target, with the warhead serving as the ramjet's compressor.

<span class="mw-page-title-main">Tartar Guided Missile Fire Control System</span> An air defense system

The Tartar Guided Missile Fire Control System is an air defense system developed by the United States Navy to defend warships from air attack. Since its introduction the system has been improved and sold to several United States allies.

<span class="mw-page-title-main">New Threat Upgrade</span>

New Threat Upgrade (NTU) was a United States Navy program to improve and modernize the capability of existing cruisers and destroyers equipped with Terrier and Tartar anti-aircraft systems, keeping them in service longer.

<i>Belknap</i>-class cruiser US guided missile cruiser class

The Belknap-class cruiser was a class of single-ended guided-missile cruisers built for the United States Navy during the 1960s. They were originally designated as DLG frigates, but in the 1975 fleet realignment, they were reclassified as guided missile cruisers (CG).

<span class="mw-page-title-main">AN/SPG-55</span>

The AN/SPG-55 was an American tracking / illumination radar for Terrier and RIM-67 Standard missiles (SM-1ER/SM-2ER). It was used for target tracking and surface-to-air missile guidance as part of the Mk 76 missile fire control system. It was controlled by a UNIVAC 1218 computer.

<span class="mw-page-title-main">RIM-66 Standard</span> US medium range surface-to-air missile

The RIM-66 Standard MR (SM-1MR/SM-2MR) is a medium-range surface-to-air missile (SAM), with a secondary role as an anti-ship missile, developed for the United States Navy (USN). A member of the Standard Missile family of weapons, the SM-1 was developed as a replacement for the RIM-2 Terrier and RIM-24 Tartar that were deployed in the 1950s on a variety of USN ships. The RIM-67 Standard (SM-1ER/SM-2ER) is an extended range version of this missile with a solid rocket booster stage.

<span class="mw-page-title-main">RIM-161 Standard Missile 3</span> Kinetic surface-to-air missile (Aegis Ballistic Missile Defense System)

The RIM-161 Standard Missile 3 (SM-3) is a ship-based surface-to-air missile system used by the United States Navy to intercept short- and intermediate-range ballistic missiles as a part of Aegis Ballistic Missile Defense System. Although primarily designed as an anti-ballistic missile, the SM-3 has also been employed in an anti-satellite capacity against a satellite at the lower end of low Earth orbit. The SM-3 is primarily used and tested by the United States Navy and also operated by the Japan Maritime Self-Defense Force.

<span class="mw-page-title-main">RIM-174 Standard ERAM</span> US surface-to-air missile

The RIM-174 Standard Extended Range Active Missile (ERAM), or Standard Missile 6 (SM-6), is a missile in current production for the United States Navy. It was designed for extended-range anti-air warfare (ER-AAW) purposes, providing capability against fixed and rotary-wing aircraft, unmanned aerial vehicles, anti-ship cruise missiles in flight, both over sea and land, and terminal ballistic missile defense. It can also be used as a high-speed anti-ship missile. The missile uses the airframe of the earlier SM-2ER Block IV (RIM-156A) missile, adding the active radar homing seeker from the AIM-120C AMRAAM in place of the semi-active seeker of the previous design. This will improve the capability of the Standard missile against highly agile targets and targets beyond the effective range of the launching vessels' target illumination radars. Initial operating capability was planned for 2013 and was achieved on 27 November 2013. The SM-6 is not meant to replace the SM-2 series of missiles but will serve alongside and provide extended range and increased firepower. It was approved for export in January 2017.

<span class="mw-page-title-main">Mark 26 missile launcher</span> Guided Missile Launching System

The Mark 26 Guided Missile Launching System (GMLS) was a United States Navy fully automated system that stows, handles, and launches a variety of missiles. The system supported RIM-66 Standard, RUR-5 ASROC, and potentially other weapons. The Mark 26 had the shortest reaction time and the fastest firing rate of any comparable dual arm shipboard launching system at the time. With only one man at the control console, a weapon can be selected, hoisted to the guide arm, and launched. Several mods provided magazine capabilities of 24 to 64 missiles.

References

  1. "US Navy: Standard Missile". US Navy. Retrieved 16 December 2022.
  2. 1 2 3 4 5 6 "RIM-67 / RIM-156 Standard Missile ER". www.seaforces.org. Retrieved 2022-12-02.
  3. Aegis BMD Project Office. Standard missile. Accessed September 26, 2009.
  4. "Raytheon RIM-67 Standard ER". www.designation-systems.net.
  5. Canadian Forces Maritime Command. Standard missile Archived 2007-12-09 at the Wayback Machine . Accessed June 5, 2006.
  6. "Standard Missile 6 (SM-6) Achieves Initial Operational Capability". www.navsea.navy.mil. Archived from the original on 2014-11-03. Retrieved 2022-12-01.
  7. "Iiaf - F-4". Archived from the original on 2008-03-18. Retrieved 2008-02-16.. Accessed October 7, 2007.
  8. Fogarty, William (1988). "Formal Investigation into the Circumstances Surrounding the Downing of Iran Air Flight 655 on 3 July 1988" (PDF). United States Department of Defense.
  9. "Raytheon Wins $149M Navy Deal for Developing SM-2 Block IIIC".
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.