Arrow 3 (Israel)
Systems:
Non-U.S. Systems
Arrow 3, an upgraded version of Israel’s
Arrow 2, is a U.S.-Israeli system designed to intercept Tactical Ballistic Missiles (TBMs).
1) This system, developed in response to growing capabilities by regional adversaries such as Iran, operates at a higher altitude and greater range than currently fielded defense systems.
2) Arrow 3 is capable of exo-atmospheric intercepts well beyond the range of its predecessor and provides the necessary upper tier to Israel’s multilayer defense apparatus, with a reported range of up to 2,400 km.
3) Arrow 3 will consist of a two-stage interceptor that will destroy incoming ballistic missiles and ICBMs with an exo-atmospheric kill vehicle that will also be to maneuver midair to intercept its target. The interceptor is designed to operate in space, inciting speculation that Arrow 3 could be used as an anti-satellite weapon
Arrow 3 Development, Testing, and Fielding
4) Arrow 3 was developed by Israel Aerospace Industries and Boeing. The system includes new communications, guidance, and sensor systems. However, it is designed to be fully interoperable with the
Arrow 2 system and uses some of the same resources as that system, including launchers and battle management centers
5) After failing its first live intercept test in December 2014, Arrow 3 underwent a number of hardware and software updates. It has since completed a number of successful tests, including the first successful engagement of a ballistic missile target with the Arrow 3 interceptor on December 10, 2015.
6) This intercept was conducted in the exo-atmosphere and was designed to test how well the system could “detect, identify, track and then discriminate real from decoy targets traveling quickly through space.”
7) A number of tests were conducted in 2016 to ensure capability before the system was deemed operational.
8) Arrow 3 completed development and was inducted into the Israeli Air Force on January 18, 2017.
U.S. Contributions
9) The United States agreed to co-develop the Arrow 3 system with Israel in 2008, despite urgings by the U.S. Department of Defense for Israel to procure the
THAAD system instead.
10) The United States and Israel deepened their cooperation on Arrow 3 in July 2010 when they signed a bilateral agreement furthering ties in developing and producing the system.
11) Funding for the Arrow 3 system has been authorized by Congress since FY2008 and, between FY2008 and FY2015, the United States contributed $450M to the system. The FY16 NDAA authorized up to $15M for “the Arrow 3 Upper Tier Interceptor Program” and a further $19.5M for “Israeli Cooperative Programs” relating to Arrow 3.
SOURCES
- Jeremy M. Sharp, “U.S. Foreign Aid to Israel,” Congressional Research Service, June 10, 2015, https://www.fas.org/sgp/crs/mideast/RL33222.pdf, 12. ↩
- “Arrow Weapon System (AWS),” IHS Jane’s Land Warfare Platforms: Artillery and Air Defence 2012-13, ed. Christopher F. Foss and James C. O’Halloran (United Kingdom: IHS, 2013), 692-695. ↩
- Jeremy M. Sharp, “U.S. Foreign Aid to Israel,” Congressional Research Service, 12 ↩
- “Arrow Weapon System (AWS),” IHS Jane’s Land Warfare Platforms: Artillery and Air Defence 2012-13, 692-695 & Yiftah Shapir, “Another Layer of Defense: The Arrow-3 Test,” The Institute for National Security Studies, INSS Insight No. 407, February 27, 2013. ↩
- Dan Williams, “Israel’s Arrow 3 missile shield fails interception test: sources,” Reuters, December 16, 2014, http://www.reuters.com/article/us-arms-israel-arrow-idUSKBN0JU1DK20141216 & Missile Defense Agency, “IMDO and MDA Successfully Complete First Arrow-3 Ballistic Missile Defense Engagement,” December 10, 2015, https://www.mda.mil/news/15news0010.html. ↩
- Barbara Opall-Rome, “US-Israel Arrow-3 Intercepts Target in Space,” Defense News, December 10, 2015, http://www.defensenews.com/story/de...ael-arrow-3-intercepts-target-space/77087084/. ↩
- Dan Williams, “Israel says ‘David’s Sling’ missile shield to be deployed in 2016,” Reuters, December 21, 2015, http://www.reuters.com/article/us-arms-israel-davidsling-idUSKBN0U410P20151221 & Missile Defense Agency, “IMDO and MDA Successfully Complete First Arrow-3 Ballistic Missile Defense Engagement.” ↩
- “Israel Expands Missile Defense System With New Interceptor,” The Washington Post, January 18, 2017, https://www.washingtonpost.com/worl...10fe486791c_story.html?utm_term=.13d0e78b8045. ↩
- Jeremy M. Sharp, “U.S. Foreign Aid to Israel,” Congressional Research Service, 12 ↩
- Ibid. ↩
- National Defense Authorization Act for Fiscal Year 2016, Pub. L. No. 114-92, 129 Stat. 1140-1142 (2015). ↩
https://missilethreat.csis.org/defsys/arrow-3/
ELM-2080
ELM-2080 - Green Pine Radar System
General
The Green Pine Radar Systems, ELM-2080("Green Pine") and ELM-2080S ("Great Pine"), are a family of transportable, ground-based radar systems, designed to autonomously detect and simultaneously track dozens of Tactical Ballistic Missiles (TBMs) from long ranges, under all weather conditions and in the presence of undesired signals. The modular Active Electronically Steering Array (AESA) technology implemented in the radar includes thousands of transmit/receive modules that provide high redundancy, graceful degradation, high reliability and high availability. The original ELM-2080 Green Pine Radar and its more advanced successor, the ELM-2080S Super Green Pine Radar, use a similar deployment infrastructure as well as a similar integrated logistic support. This allows the customer to optimally tailor anti- TBM solutions with a mix of Green Pine Radar systems, according to specific operational requirements. Operational in the Israel Air Force as part of the Arrow Weapon System, Green Pine Radar Systems enhance the country’s air defense and early-warning capabilities. The addition of Green Pine radars improves the performance of any ballistic missile defense System.
Features
- Autonomous long range detection and acquisition of TBMs
- Digital AESA technology
- Multi-mode operation
- Simultaneous tracking of dozens of TBMs
- Wide and flexible spatial coverage
- Discrimination between TBMs and other target types
- Satellite detection and tracking
- Accurate impact and launch point estimation
- Interoperability with complementary Air Defense Systems
- Data recording and analysis capabilities
- Transportable configuration
- Field proven
http://www.iai.co.il/2013/33785-27136-en/ELTA.aspx
Army Navy/Transportable Radar Surveillance (AN/TPY-2) - U.S radar facility in the Israeli negev
Countering the Growing Ballistic Missile Threat
According to public U.S. intelligence estimates, there are more than 6,300 ballistic missiles outside of U.S., NATO, Russian and Chinese control, with that number expected to grow to almost 8,000 by 2020. Rogue regimes are developing nuclear, chemical and/or biological warheads, while at the same time making their missiles more flexible, mobile, survivable, reliable and accurate. As rogue regimes proliferate and improve their weapons 1, the men and women charged with protecting the U.S., our warfighters, allies and partners will need proven, affordable, reliable systems that can keep pace with the growing threat.
The first step in defeating a ballistic missile that has been fired is “seeing” it. And that’s where Raytheon’s AN/TPY-2 X-Band radar comes in. A critical element in the Ballistic Missile Defense System, AN/TPY-2 continually searches the sky for ballistic missiles. Once it detects a missile, it acquires it, tracks it, and uses its powerful radar and complex computer algorithms to discriminate between the warhead and non-threats such as countermeasures.
Depending on the needs of the warfighter, the AN/TPY-2 radar can be deployed in two different modes. In forward-based mode, the radar is positioned near hostile territory, and acquires ballistic missiles in the boost (ascent) phase of flight, shortly after they are launched. It then tracks and discriminates the threat, and passes critical information required by decision makers to the Command and Control Battle Management network.
When the AN/TPY-2 radar is deployed in terminal mode, the radar’s job is to detect, acquire, track and discriminate ballistic missiles in the terminal (descent) phase of flight. The terminal-mode AN/TPY-2 also leads the Terminal High Altitude Area Defense ballistic missile defense system by guiding the THAAD missile to intercept a threat.
AN/TPY-2 has a record of flawless performance against all classes of ballistic missiles. In forward-based mode, it has proven capability against short-, medium and intermediate-range ballistic missiles. In terminal mode, AN/TPY-2 has demonstrated its ability to enable an intercept of short- and medium-range ballistic missiles.
Raytheon has delivered ten AN/TPY-2s to date, and is in the process of building two more for the U.S. customer, and two for international partners. These radars are an important step in the right direction to meeting the growing U.S. and international demand for an affordable, proven system that can stay ahead of the increasing ballistic missile threat.
Terra Radar System
https://defence.pk/threads/israeli-aerospace-industries-terra-radar-complex.407729/
@Taimoor Khan