Corvette Vessel

According to defense-aerospace.com, launching ceremony of first state of the art 2,300 tons corvette vessel being built for Pakistan Navy was held at M/s Damen Shipyard in Galati, Romania.

The Dutch Damen shipbuilding group has launched the first of two corvettes at its shipyard in Galati, Romania; she is due to enter service by the end of this year, with the second to follow in 2020

Chief of Staff (Personnel), Vice Admiral Abdul Aleem graced the occasion as Chief Guest.

Corvettes are multi-purpose platforms of medium size and tonnage. Subsequent to the signing of contract for construction of two corvettes for Pakistan Navy in 2017, the first ship is expected to join Pakistan Navy Fleet by end of this year and the second would be delivered by mid-2020.

Speaking on the occasion, the Chief Guest underscored the importance of Corvettes in the maritime domain. He further added that these platforms will act as force multipliers in enhancing Navy’s capability of safeguarding maritime frontiers and would offer more flexibility in the conduct of Pakistan Navy’s initiative of independent Regional Maritime Security Patrols in the Indian Ocean Region.

The Chief Guest also lauded the professionalism of M/s DAMEN Shipyards and cooperation in delivering cutting edge technologies to Pakistan Navy in the form of Corvettes.

The launching ceremony was also attended by Chief Naval Overseer (Romania), senior management of M/s DAMEN Shipyards, Gorinchem & Galati and Pakistan Navy officials.

First Flight

The Sikorsky HH-60W Combat Rescue Helicopter achieved first flight today at Sikorsky’s West Palm Beach, Florida site, an important step toward bringing this all-new aircraft to service members to perform critical search and rescue operations. The aircraft, developed by Sikorsky, a Lockheed Martin Company and based on the proven UH-60M Black Hawk, is customized for the U.S. Air Force ‘s rescue mission and will ensure the Air Force fulfills its mission to leave no one behind.

Sikorsky HH-60W Combat Rescue Helicopter Achieves First Flight

Total flight time was approximately 1.2 hours and included hover control checks, low speed flight, and a pass of the airfield.

«This achievement is yet another vital step toward a low rate initial production decision and getting this much-needed aircraft and its advanced capabilities to the warfighter», said Dana Fiatarone, vice president, Sikorsky Army & Air Force Systems. «We are very pleased with the results of today’s flight and look forward to a productive and informative flight test program».

Today’s flight paves the way for a Milestone C production decision in September 2019, per the original baseline schedule, to which both Sikorsky and the Air Force are committed. A second HH-60W helicopter is expected to enter flight test next week, with a third and fourth aircraft entering flight test this summer. These aircraft will provide critical data over the course of the program which will enable the Air Force to make an informed production decision.

«The HH-60W’s first flight is the culmination of significant development and design advances. We are excited to now move forward to begin full aircraft system qualification via the flight test program», said Greg Hames, director of the Combat Rescue Helicopter program. «Together with the Air Force, our team is motivated and committed to advancing this program and delivering this superior aircraft to our airmen and women».

The HH-60W Combat Rescue Helicopter is significantly more capable and reliable than its predecessor, the HH-60G Pave Hawk. The aircraft hosts a new fuel system that nearly doubles the capacity of the internal tank on a UH-60M Black Hawk, giving the Air Force crew extended range and more capability to rescue those injured in the battle space. The HH-60W specification drives more capable defensive systems, vulnerability reduction, weapons, cyber-security, environmental, and net-centric requirements than currently held by the HH-60G.

«With the Combat Rescue Helicopter’s successful first flight now behind us, we look forward to completion of Sikorsky’s flight test program, operational testing and production of this aircraft to support the Air Force’s critical rescue mission», said Edward Stanhouse, Chief, U.S. Air Force Helicopter Program Office. «Increased survivability is key and we greatly anticipate the added capabilities this aircraft will provide».

The U.S. Air Force program of record calls for 113 helicopters to replace the Pave Hawks, which perform critical combat search and rescue and personnel recovery operations for all U.S. military services. A total of nine aircraft will be built at Sikorsky’s Stratford, Connecticut, facility during the Engineering & Manufacturing Development (EMD) phase of the program – four EMD aircraft and five System Demonstration Test Articles (SDTA).

Joint Threat Emitter

Northrop Grumman Corporation has received a $46 million delivery order for eight Joint Threat Emitter (JTE) Units. This award is a part of the indefinite delivery, indefinite quantity JTE Enhanced Delivery Initiative contract awarded by the U.S. Air Force in December 2018.

JTE is a ruggedized system that is easily relocated, reactive to aircrew/aircraft for fast-jet, fixed-wing and rotary-wing defensive measures, and can be rapidly reprogrammed with new threat parameters

JTE is a mobile air defense electronic warfare threat simulator that provides high-fidelity replication of surface-to-air missiles and anti-aircraft artillery threats for aircrew training.

«JTE is critical to the success of the U.S. military and our international allies», said James Conroy, vice president, land and avionics C4ISR, Northrop Grumman. «The system ensures aircrews are better equipped to identify and effectively counter the most advanced enemy missile and artillery threats».

Awarded by the Air Force Life Cycle Management Center, this award includes the delivery of eight wide-band variants of the threat emitter unit, as well as retrofit kits for some existing systems. Deliveries are slated for U.S. training ranges across the country and to select international locations. This will mark the second set of JTE systems delivered internationally. All work under this contract will be performed in Buffalo.

Northrop Grumman’s JTE is the current U.S. Air Force program of record with 30 systems fielded both domestically and internationally. The JTE provides a modern, reactive battlespace war environment, designed to help train military personnel to identify and effectively counter enemy missile or artillery threats.

Modular Pods

The U.S. Army awarded Lockheed Martin a $10.5 million contract to develop a new modular pod for Guided Multiple Launch Rocket System (GMLRS) rockets. The new pods will replace the depleting inventory of M26 rocket pods and support the increased production of GMLRS rounds.

Lockheed Martin to develop Modular Pods for Guided Multiple Launch Rocket System

The modular pod is designed to allow for reloading of individual rocket tubes as they are expended, whereas the original GMLRS pods are discarded after use. The pod will be able to fire the GMLRS Unitary and Alternative Warhead variants, as well as the developmental Extended-Range GMLRS rockets and future rounds.

«The new pods will be compatible with both the High Mobility Artillery Rocket System (HIMARS) and MLRS M270 family of launchers», said Gaylia Campbell, vice president of Precision Fires and Combat Maneuver Systems at Lockheed Martin Missiles and Fire Control. «These new pods will improve reload operations and assure our warfighters have adequate rounds available to them when they are most needed».

The modular pods will be produced at Lockheed Martin’s Precision Fires Center of Excellence in Camden, Ark. Ground testing will begin this fall, with a planned flight test before the end of the calendar year. The first deliveries of the new modular pod are anticipated in the fall of 2021.

For more than 40 years, Lockheed Martin has been the leading designer and manufacturer of long-range, surface-to-surface precision strike solutions, providing highly reliable, combat-proven systems like MLRS, HIMARS, the Army Tactical Missile System (ATACMS) and GMLRS to global customers.

Next-Generation GPS

Raytheon Company’s GPS Next-Generation Operational Control System program, known as GPS OCX, completed final qualification testing of the system’s modernized monitor station receivers, which are now ready to be installed around the world starting in August. GPS OCX is the enhanced ground control segment of a U.S. Air Force-led effort to modernize America’s GPS system.

Raytheon to start global installation of GPS OCX modernized monitoring station receivers

«The modernized receivers give GPS OCX the ability to receive and decrypt all GPS III military and civil signals, a critical capability the current system doesn’t have», said Dave Wajsgras, president of Raytheon Intelligence, Information and Services. «Monitor station receiver installation keeps us on track for full system delivery by our June 2021 contractual deadline».

The modernized receivers will measure and monitor legacy military and civilian signals sent by the current GPS satellite constellation plus the new signals sent by the next-generation GPS III. The receivers will also feed correction models at the master control station, giving U.S. Air Force satellite controllers the information necessary to make key adjustments to maximize accuracy.

Keel Authenticated

The keel for the future USNS John Lewis (T-AO-205), the Navy’s first John Lewis-class fleet replenishment oiler, was ceremonially laid at General Dynamics-National Steel and Shipbuilding Company (NASSCO) May 13.

Future USNS John Lewis (T-AO-205) Keel Authenticated

A keel laying is the ceremonial recognition of the start of a ship’s construction. It is the joining together of a ship’s modular components and the authentication or etching of an honoree’s initials into a ceremonial keel plate. The ship’s namesake, U.S. Representative John Lewis, and the ship’s sponsor, actress Alfre Woodard, etched their initials into the keel plate.

«We’re honored to have Representative Lewis and Ms. Woodard with us today as we lay the foundation for recapitalizing our nation’s critical fuel-replenishment-at-sea capabilities», said Mike Kosar, Support Ships, Boats and Craft program manager, Program Executive Office (PEO) Ships. «These ships are steadfast, reliable and allow our warships to defend our freedoms for which Representative Lewis has dedicated his life to protecting».

The John Lewis-class ships are based on commercial design standards and will recapitalize the current T-AO 187-class fleet replenishment oilers to provide underway replenishment of fuel to U.S. Navy ships at sea. These ships are part of the Navy’s Combat Logistics Force.

John Lewis will be operated by the Navy’s Military Sealift Command and is the first ship named after the civil rights leader and Presidential Medal of Freedom recipient. Construction of John Lewis began in September 2018, with delivery planned in late 2020.

As one of the Defense Department’s largest acquisition organizations, PEO Ships is responsible for executing the development and procurement of all destroyers, amphibious ships, sealift ships, support ships, boats and craft.

Long-range radar

Indra has been awarded a contract to supply the Royal Air Force (RAF) of the United Kingdom with an advanced long-range air defense deployable radar.

Indra to supply a state-of-the-art deployable military radar to the United Kingdom

The company was chosen after competing with the main companies in the industry. Indra will deliver the system later this year, meeting tight deadlines.

The Indra Long Tactical Range 25 (LTR25) L-band radar stands out for offering very high long-range detection capabilities, comparable to those of larger fixed radars, but with the added advantage of being able to operate very quickly and be transported in small aircraft, such as the C-130 Hercules.

It is a robust solution designed to facilitate deployments outside the national territory, to reinforce the surveillance of a specific area on a one-off basis or to be available as backup in the event that one of the fixed radars is attacked or damaged.

Indra is a leading company in the development of radars and one of the main suppliers of this type of solutions for NATO. The company has won all the tenders awarded by the Alliance in the last five years. Its systems also cover surveillance of the whole south-western flank of Europe. Indra has delivered over 50 radars in total to countries from five continents, so the capabilities of its teams have been widely demonstrated in all types of scenarios and environments. The company also has experience in the supply of integrated air defense systems for a number of countries.

 

Lanza

Azimuth 360º
Elevation 20º (40º)
Electronic Programable Tilt ±5º
Maximum Instrumented Range 389-444 km/242-276 miles/210-240 NM
Altitude up to 30,480 m/100,000 feet
Antenna Scan Rate 5-12 s/scan

 

Fifth AEHF Satellite

The U.S. Air Force is gearing up to launch the fifth global, anti-jam, protected communications satellite after its arrival in Florida.

AEHF-5 is hoisted by crane into its satellite ship container at Lockheed Martin’s satellite manufacturing facility in Sunnyvale, California. After the satellite is securely packed into the container, it boards a US Air Force cargo plane where it will travel from California to Cape Canaveral Air Force Station, Florida
AEHF-5 is hoisted by crane into its satellite ship container at Lockheed Martin’s satellite manufacturing facility in Sunnyvale, California. After the satellite is securely packed into the container, it boards a US Air Force cargo plane where it will travel from California to Cape Canaveral Air Force Station, Florida

Lockheed Martin shipped the Air Force’s fifth Advanced Extremely High Frequency (AEHF-5) satellite to Cape Canaveral Air Force Station ahead of its expected June launch on a United Launch Alliance Atlas V rocket. AEHF-5’s launch comes just eight months after AEHF-4 blasted off from the Cape on October 17, 2018.

Once launched, AEHF-5 will join the AEHF constellation, which provides protected, survivable communications for the nation’s nuclear command, control and communication mission.

Earlier this month, the Air Force and Lockheed Martin marked the successful completion of AEHF-4’s spacecraft on-orbit testing. This event is the last step before the satellite joins the existing AEHF constellation, adding increased resiliency to an on-orbit network that continues to provide highly-secure, protected and survivable communications for the U.S., Canada, the Netherlands and the United Kingdom.

«We are thrilled to return to the Cape to launch AEHF-5 less than a year after launching AEHF-4, showing an accelerated pace to support the Air Force Space and Missiles Systems Center», said Mike Cacheiro, vice president of Protected Communications at Lockheed Martin Space. «AEHF-4 arrived to its on-orbit operational position a month early, where it demonstrated Extended Data Rate (XDR) connectivity. This is an exciting time where we are witnessing the deployment of critical capabilities of the current four AEHF satellites in geosynchronous orbit, which provide ten times greater capacity than the original Milstar constellation. The AEHF system is essentially a high capacity data network in the sky, and this is a complete paradigm shift for the future of protected communications».

The new AEHF constellation with the advanced technology of XDR will change how users interact with the new high-bandwidth network. Data speeds increase fivefold, and transmissions that used to take hours can take minutes. This enables both strategic and tactical users to communicate globally across a high-speed network that delivers protected communications in any environment.

Lockheed Martin designs, processes and manufactures the AEHF satellites at its production facility in Silicon Valley. AEHF-6 is currently in full production at the company’s Sunnyvale, California advanced satellite manufacturing facility.

Patrol Vessel

The first of Australia’s Arafura Class Offshore Patrol Vessels (OPVs) will celebrate a naval tradition with the keel-laying ceremony to bring good luck for the shipbuilders and future crew members.

First Arafura Class marks ceremonial keel-laying
First Arafura Class marks ceremonial keel-laying

In the second major milestone of Australia’s newest warship construction program, the keel laying ceremony will see a commemorative coin placed under the keel of the vessel by the youngest shipbuilders in the Osborne Naval Shipyard, followed by the Chief of Navy wedging the coin under the keel.

Luerssen Australia Chairman Tim Wagner said the milestone marked the official start of the ship’s life, and demonstrated the significant progress made already on the Arafura Class program.

«This is another reminder of the importance of the Arafura Class program towards Australia building a sovereign naval shipbuilding capability», Mr. Wagner said. «As the prime contractor and designer for the SEA1180 program, we have been delighted with progress so far, and remain confident that we will deliver all 12 vessels on time and on budget for the Royal Australian Navy».

ASC Chief Executive Officer Stuart Whiley said the Arafura Class shipbuilding program is progressing well, employing more than 150 shipbuilders.

«The Arafura Class is ASC’s second shipbuilding program, commenced as we continue to successfully complete the Air Warfare Destroyer program, and we are very pleased at its progress to date», said Mr. Whiley. «I would also like to pay tribute to the skilled and experienced workforce of ASC Shipbuilding, who are carrying out the shipbuilding work on this program, under contract to ASC».

The youngest male and female shipyard workers, Boilermaker Kane Ramsay and Document Editor Lauren Pitman, will feature in today’s ceremony.

«I’m excited to be part of this new program – it’s great to be looking to the future of shipbuilding», said Kane. «The lead ship is coming together well and it’s great to be a part of today’s traditional milestone. I’m looking forward to seeing the ship completed in the coming months», said Lauren.

Construction of the first of 12 Arafura Class OPVs commenced last November, on time, by prime contractor Luerssen Australia and shipbuilding subcontractor ASC.

The Arafura Class marks the commencement of continuous naval shipbuilding in Australia, which will see major warships and submarines constructed in Osborne, South Australia, and minor warships in Henderson, Western Australia.

The first two OPVs will be constructed at the Osborne Naval Shipyard in South Australia by ASC, with the Australian steel, cut in Western Australia by Civmec. The remaining ten warships will be constructed at Civmec’s facility in Henderson. It is Luerssen’s intention that the joint venture between Civmec and Luerssen Australia known as Australian Maritime Shipbuilding and Export Group (AMSEG) will play a major role in the construction.

Sensor technology

The successful LRASM sensor program demonstrates BAE Systems’ ability to quickly deliver advanced EW technology to warfighters.

Sensor technology guides next-generation missile to readiness
Sensor technology guides next-generation missile to readiness

BAE Systems worked closely with Lockheed Martin to deliver Long-Range Anti-Ship Missiles (LRASM) to the U.S. Air Force, achieving Early Operational Capability (EOC) for the B-1 B Lancer bomber ahead of schedule. The Air Force accepted delivery of production LRASM units following successful simulation, integration, and flight tests that demonstrated the missile’s mission readiness.

«We’re quickly delivering critical capabilities to warfighters to meet their urgent operational needs», said Bruce Konigsberg, Radio Frequency (RF) Sensors product area director at BAE Systems. «Our sensor systems provide U.S. warfighters with a strike capability that lets them engage protected, high-value maritime targets from safe distances. The missile provides a critical advantage to U.S. warfighters».

BAE Systems’ long-range sensor and targeting technology enables LRASM to detect and engage protected ships in all weather conditions, day or night, without relying on external intelligence and navigation data.

BAE Systems and Lockheed Martin are working closely together to further mature the LRASM technology. The companies recently signed a contract for the production of more than 50 additional sensors and are working to achieve EOC on the U.S. Navy’s F/A-18E/F Super Hornet in 2019.

The advanced LRASM sensor technology builds on BAE Systems’ expertise in Electronic Warfare (EW), signal processing, and targeting technologies, and demonstrates the company’s ability to apply its world-class EW technology to small platforms. The successful LRASM sensor program demonstrates the company’s ability to quickly deliver advanced EW technology to warfighters.

As part of the company’s electronic warfare capacity expansion initiatives, it locates key programs where they will be optimally staffed to quickly transition from design to production, accelerate deliveries, and improve product affordability. The company’s work on the LRASM program is conducted at state-of-the-art facilities in Wayne, New Jersey and Nashua, New Hampshire, where it benefits from highly skilled EW engineering and manufacturing workforces.