RIM-116 RAM

Rolling Airframe Missile

Overview

RIM-116 RAM

A RIM-116 Rolling Airframe Missile being launched from a Mk 31 GMWS system on a San Antonio class landing platform dock in 2009
Source: US Navy - © Public domain

Origin

United States

Type

Surface to air missile

Entered service

1992 for Block 0
2000 for Block 1
2015 for Block 2

Status

In service

Development

1976 - 1985

Developer

United States - General Dynamics
Germany - Diehl BGT Defence

Production

1987 - Present

Producer

United States - Raytheon (previously General Dynamics)
Germany - MBDA / Diehl BGT Defence

Unit cost

US$ 273.000 for Block 0 in mid 1990's
US$ 444.000 for Block 1 in 1999
US$ 998.000 in 2014
US$ 905.000 in 2021

Number produced

About 1.400 Block 0 by 1999

Designations

RAM / Rolling Airframe Missile

Notable users

United States
Germany
Japan

Description

Introduction

The Rolling Airframe Missile is a modern era surface to air missile of US-German origin. Development started in the late Cold War era and was a joint USA and West German effort. The goal was to develop a point defense system against inbound anti-ship missiles which had greater performance and standoff range than gun-based systems. RAM was the first dedicated missile design for naval missile defense.

Design

The Rolling Airframe Missile itself is a unique combination of proven off-the-shelf components. The main body of the missile, including rocket motor and warhead, are from the AIM-9 Sidewinder short range air to air missiles. The infrared seeker comes from the Stinger man portable surface to air missile. Two radio antenna are fitted to the seeker head. These provide the ability for passive radar homing. Since these operate in a single plane, the missile needs to spin in order to determine the direction of the inbound anti-ship missile. This rolling of the airframe is what gives the RAM missile its name. Over time the missile saw minor and major improvements in several blocks.

Firepower

The RAM has a speed between Mach 2 and 3. Maximum effective range is about 9 km for early models and 15 km for Block 2 missiles. Although the RAM can reach several kilometers in altitude it is most likely to be employed against sea skimming missiles. An effectiveness of 95% has been derived from live fire tests. In practice the success rate will most likely depend on the target parameters, including target characteristics, saturation, weather conditions and countermeasures.

Guidance

The RAM uses a dual mode seeker. The passive radar homing guidance is used to steer the missile towards an inbound anti-ship missile. The infrared homing seeker has increased performance the closer it is to the target. This is used in the terminal stage. A laser proximity fuse detonates the blast-fragmentation warhead near the target missile. Guidance has been continuously improved over time. The infrared seeker has been updated to include the ultraviolet spectrum and later became an imaging infrared seeker. An infrared all the way guidance was also added to target inbound missiles that do not use active radar homing. The passive radar homing has been updated to function in ECCM conditions. A software update added the ability to target helicopters, aircraft and surface vessels. The latest update includes a datalink for communication between missiles in flight.

Platforms

The RAM is predominantly used in the Mk 31 Guided Missile Weapon System. This includes one or more 21-cell launchers and a central command post that is integrated with the ship's radar systems. In 2009 the SeaRAM became operational. This is a much simpler and more compact system that is based on Phalanx close-in weapon system. Classes of ships that have been fitted with RAM range from fast patrol boats to aircraft carriers. Frigates and destroyers are the most common types of ship to be fitted with RAM systems.

Users

The RAM was jointly developed by the United States and West Germany. These two nations are the early adopters and placed the most sizeable orders. About a dozen nations have adopted the RAM. These include NATO nations and various other nations around the world with close ties to the United States. RAM remains in production and is actively marketed and installed on new classes of ships.

Variants

RIM-116 RAM

A RIM-116 Rolling Airframe Missile being launched from a Mk 31 GMWS system on a Nimitz class aircraft carrier in 2016.
Source: US Navy - © Public domain

List of RAM variants

RIM-116A Block 0

Original production version that entered operational service in 1992. Uses radar frequency seeker for initial stage of flight and infrared seeker in terminal stage.

RIM-116B Block 1

Similar to Block 0, but adds an infrared-only guidance mode for use against missiles without active radar homing. Performance against sea skimming missiles was also improved. Entered series production in the year 2000.

RIM-116B Block 1A

Software update for Block 1 that adds the HAS mode. This allows it to be used against helicopters, aircraft and surface targets.

RIM-116C Block 2

Deep modernization of the RAM. New larger diameter rocket motor for a range increase of 50%. Four control fins instead of two improve the agility of the missile. The seeker was improved to be able to home in on low probability of intercept radar homing missiles.

RIM-116E Block 2B

RAM Block 2B is an improvement over Block 2 that adds a missile-to-missile interface. This allows two missiles in flight to communicate with each other.

Details

Facts RIM-116A Block 0 RIM-116B Block 1 RIM-116C Block 2

General

Origin

United States / Germany

Type

Surface to air missile

Dimensions

Length

2.79 m

Diameter

127 mm

Wingspan

434 mm

Weight

73.5 kg

Guidance

Guidance mode

Passive radar homing initial phase

Infrared guidance terminal phase

Aspect

All aspect, head-on due to inbound missile scenario

Warhead

Model

WDU-17/B

Type

Blast fragmentation

Weight

9.1 kg

Fuse

Laser proximity fuse

Propulsion

Type

Solid propellant rocket motor

Model

MK 112

Engagement envelope

Speed

Mach 2+

Range

0.8 km minimum

9 km maximum

Altitude

1.5 m minimum

6.1 km maximum

General

Origin

United States / Germany

Type

Surface to air missile

Dimensions

Length

2.83 m

Diameter

127 mm

Wingspan

434 mm

Weight

74.4 kg

Guidance

Guidance mode

Passive radar homing initial phase

Dual band infrared and UV guidance terminal phase

Block 1 adds infrared all the way mode against targets without RF-signature

Block 1A adds HAS-mode to target helicopters, aircraft and surface targets

Aspect

All aspect, head-on due to inbound missile scenario

Warhead

Model

WDU-17/B

Type

Blast fragmentation

Weight

9.1 kg

Fuse

Laser proximity fuse

Propulsion

Type

Solid propellant rocket motor

Model

MK 112

Engagement envelope

Speed

Mach 2+

Range

0.8 km minimum

9 km maximum

Altitude

1.5 m minimum

6.1 km maximum

General

Origin

United States / Germany

Type

Surface to air missile

Dimensions

Length

2.88 m

Diameter

159 mm

Wingspan

321 mm

Weight

88.2 kg

Guidance

Guidance mode

Passive radar homing initial phase

Imaging infrared guidance terminal phase

Optional infrared all the way mode against targets without RF-signature

Aspect

All aspect, head-on due to inbound missile scenario

Warhead

Type

Blast fragmentation

Weight

11.0 kg

Fuse

Laser proximity fuse

Propulsion

Type

Solid propellant rocket motor

Engagement envelope

Speed

About Mach 3

Range

0.4 km minimum

15 km maximum

Altitude

1.5 m minimum

8.1 km maximum

Launch platforms

Mk 31 GMWS

The Mk 31 GMWS is first and most common system used to launch the RIM-116 RAM missile. This system uses one or more 21-cell Mk 49 GMLS launchers and is connected to the ship's sensors and combat data management system.

RALS

The RAM Alternate Launching System (RALS) was developed for smaller vessels for which the entire Mk 31 GMWS was too large or expensive. This German/Danish development had a 10 missile capacity. It never reached operational state.