Grumman E-2 Hawkeye

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"The U.S. Navy’s Secret Counter-Stealth Weapon Could Be Hiding in Plain Sight"
by: Dave Majumdar
Published: June 9, 2014 9:14 AM
Updated: June 9, 2014 9:15 AM

The Northrop Grumman E-2D Advanced Hawkeye maybe the U.S. Navy’s secret weapon against the emerging threat of enemy fifth-generation stealth fighters and cruise missiles.

The key to that capability is the aircraft’s powerful UHF-band hybrid mechanical/electronically-scanned AN/APY-9 radar built by Lockheed Martin. Both friend and foe alike have touted UHF radars as an effective countermeasure to stealth technology.

One example of that is a paper prepared by Arend Westra that appeared in the National Defense University’s Joint Forces Quarterly academic journal in the 4th quarter issue of 2009.

“It is the physics of longer wavelength and resonance that enables VHF and UHF radar to detect stealth aircraft,” Westra wrote in his article titled Radar vs. Stealth.

UHF-band radars operate at frequencies between 300MHz and 1GHz, which results in wavelengths that are between 10 centimeters and one meter long.

Typically, due to the physical characteristics of fighter-sized stealth aircraft, they must be optimized to defeat higher frequencies in the Ka, Ku, X, C and parts of the S-bands.

There is a resonance effect that occurs when a feature on an aircraft—such as a tail-fin tip— is less than eight times the size of a particular frequency wavelength. That omni-directional resonance effect produces a “step change” in an aircraft’s radar cross-section.

Effectively what that means is that small stealth aircraft that do not have the size or weight allowances for two feet or more of radar absorbent material coatings on every surface are forced to make trades as to which frequency bands they are optimized for.

That would include aircraft like the Chengdu J-20, Shenyang J-31, Sukhoi PAK-FA and indeed the United States’ own Lockheed Martin F-22 Raptor and tri-service F-35 Joint Strike Fighter.

Only very large stealth aircraft without protruding empennage surfaces — like the Northrop Grumman B-2 Spirit or the forthcoming Long Range Strike-Bomber — can meet the requirement for geometrical optics regime scattering.

“You can’t be everywhere at once on a fighter-sized aircraft,” one source told USNI News earlier in the year.

However, as Westra and many other sources point out, UHF and VHF-band radars have historically had some major drawbacks. “Poor resolution in angle and range, however, has historically prevented these radars from providing accurate targeting and fire control,” Westra wrote.

Northrop Grumman and Lockheed Martin appear to have overcome the traditional limitations of UHF-band radars in the APY-9 by applying a combination of advanced electronic scanning capability together with enormous digital computing power in the form of space/time adaptive processing.
The Navy would not directly address the issue, but service officials did say the APY-9 provides a massive increase in performance over the E-2C Hawkeye 2000’s radar.

“The E-2D APY-9 radar provides a significantly enhanced airborne early warning and situational awareness capability against all air targets including threat aircraft and cruise missiles,” said Naval Air Systems Command spokesman Rob Koon in an emailed statement to USNI News.

“The modern technology of the APY-9 radar provides a substantial improvement in performance over the E-2C’s APS-145 radar whose heritage dates back to the 1970s.”

But the Navy openly talks about the E-2D’s role as the central node of its Naval Integrated Fire Control-Counter Air (NIFC-CA) (pronounced: nifk-kah) construct to defeat enemy air and missile threats—Rear Adm. Mike Manazir, the Navy’s director of air warfare, described the concept in detail to USNI News last December.

Under the NIFC-CA ‘From the Air’ (FTA) construct, the APY-9 radar can act as a sensor to cue Raytheon AIM-120 AMRAAM air-to-air missiles for Boeing F/A-18E/F Super Hornets fighters via the Link-16 datalink.

Additionally, the APY-9 also acts as a sensor to guide Standard SM-6 missiles launched from Aegis cruisers and destroyers against targets located beyond the ships’ SPY-1 radars’ horizon via the Cooperative Engagement Capability datalink under the NIFC-CA ‘From the Sea’ (FTS) construct. And thus far, all live-fire NIFC-CA missile shots have been successful.

The first increment of NIFC-CA is set to be fielded later this year when the first E-2D squadron, VAW-125, is set to declare initial operating capability in October 2014. NIFC-CA will be declared operational concurrently with that squadron.

The APY-9 is a unique design in many respects, NAVAIR and Northrop brag that the radar is a “two-generation leap” over the APS-145 in an information booklet the service has been distributing. While externally the radar appears to be no different than the purely mechanically-scanned AN/APS-145—also built by Lockheed Martin–internally it is an another matter entirely.

While the APY-9 does rotate inside the E-2D’s dish-shaped radome to achieve 360-degree coverage, the crew of the aircraft can control the antenna rotation speed to focus on an area of interest according to NAVAIR. Further, the 18-channel passive phased-array ADS-18 antenna has the ability to steer its radar beam electronically. It also incorporates an electronically-scanned identification friend or foe system.

The transmitter and receiver hardware are located inside the aircraft’s fuselage and connect to the antenna via high power radiofrequency transmission lines and a high power radiofrequency rotary coupler. Thus, it is not an active electronically scanned array radar.

The APY-9 has three distinct radar modes, Advanced Airborne Early Warning Surveillance, Enhanced Sector Scan, and Enhanced Tracking Sector.

Advanced Airborne Early Warning Surveillance is the normal operating mode for the radar to provide uniform 360-degree, simultaneous air and surface coverage with long-range detection of low radar cross-section targets. The antenna rotates 360 degrees every ten seconds or so when it is operating in this primarily mechanically scanned mode.

The Enhanced Sector Scan mode merges traditional mechanical scanning with steerable electronic scanning to leverage the benefits of both technologies while simultaneously mitigating the shortcomings of either methodology. The antenna rotates mechanically, but the operator can select a specific sector where the rotation of the antenna is slowed to focus on an area.

Enhanced Tracking Sector is a pure electronically scanned mode, where the antenna is geographically stabilized or following a particular target. This mode provides enhanced detection and tracking in a selected sector by stopping the antenna and scanning purely electronically. This mode is particularly useful against low-observable targets due to its rapid track updates.

The APY-9 has a range of at least 300 nautical miles and seems to be limited only by the performance of the E-2D airframe–which normally operates at 25,000ft.

The Navy ultimately hopes to buy a total of 75 E-2D with the last examples entering the fleet in the 2020s.
 
E-2D refuelling system passes CDR

01st July 2015 - 11:30

The E-2D Advanced Hawkeye's Aerial Refuelling (AR) system has completed its critical design review (CDR) conducted by the US Navy and Northrop Grumman, it was announced on 30 June.

Northrop Grumman is designing, developing, manufacturing and testing sub-system upgrades for adding the AR capability to its E-2D Hawkeye tactical airborne early warning aircraft under an engineering, manufacturing and development (EMD) contract awarded in 2013.

With the completion of the CDR, the programme is now ready to move on to the build/test phase. Once it is ready for service, the AR system will be retrofitted onto E-2D aircraft already in operation and installed in new production aircraft.

The developmental AR sub-system and flight test instrumentation will be installed onto E-2D test aircraft from the second quarter of FY2016. Flight testing for the test aircraft will then commence in FY2017. The system is expected to achieve initial operational capability in FY2020.

Capt. John Lemmon, program manager, E-2/C-2 airborne tactical data system program office (PMA-231), US Navy, said: 'The AR team continues to put outstanding effort into bringing this much needed capability to the E-2D Advanced Hawkeye. Aerial refuelling will enable the E-2D Advanced Hawkeye to provide longer on-station times at greater ranges.'

Jane Bishop, vice president, E-2/C-2 programs, Northrop Grumman, said: 'Achieving this critical milestone moves the programme one step closer to fielding this much needed capability to the warfighter.'

http://www.shephardmedia.com/news/digital-battlespace/hawkeye-refuelling-system-passes-cdr/
 

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There were talks that they may be looking to acquire some a while back.
 
E-2D Advanced Hawkeye with New Aerial Refueling Capability Successfully Completes First Flight

ST. AUGUSTINE, Fla. – Dec. 15, 2016–Northrop Grumman (NYSE: NOC) has successfully completed the first flight
of an E-2D Advanced Hawkeye equipped with aerial refueling (AR).

E-2D Advanced Hawkeye with New Aerial Refueling Capability Successfully Completes Frist Flight


Under a 2013 engineering, manufacturing, and development (EMD) contract award, Northrop Grumman designed,
developed, manufactured, and tested several sub-system upgrades necessary to accommodate an aerial refueling capability.

“The Northrop Grumman aerial refueling team continues to put outstanding effort into bringing this much-needed
capability to the E-2D Advanced Hawkeye and our warfighters who rely on it,” said Capt. Keith Hash, program manager,
E-2/C-2 Airborne Tactical Data System Program Office (PMA-231).

The aerial refueling capability will allow the E-2D to provide longer on-station times at greater ranges, extending
its mission time to better support the warfighter.

The upgrades installed to support aerial refueling include probe and associated piping, electrical and lighting upgrades,
and long endurance seats* that will enhance field of view in the cockpit and reduce fatigue over longer missions.

“First flight is an exciting day in the journey from concept to an aerial refueling equipped E-2D,” said Jane Bishop, vice president,
E-2/C-2 programs, Northrop Grumman. “This takes the E-2D to another level, which will bring more combat persistence to the U.S. and our allies.”

The aerial refueling program will modify three aircraft for testing planned through 2018. Production cut-in and
retrofit plans are scheduled to begin in 2018.

Northrop Grumman is a leading global security company providing innovative systems, products, and solutions in autonomous systems,
cyber, C4ISR, strike, and logistics and modernization to customers worldwide. Please visit www.northropgrumman.com for more information.


* Hope they installed the optional crew lavatory.
 

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Dumb question but has the E-2 not always had aerial refueling? ???
 
Never dumb questions- just dumb answers.
The Israeli Air Force was the first operator to install in-flight refuelling equipment on their land-based E-2C Hawkeyes.
Source with a picture:
https://en.m.wikipedia.org/wiki/192_Squadron_(Israel)
 
RAF E-2Ks were to have probe and drogue kit fitted back in the 1970s.

They were to be 'reverse' refueled.

Chris
 
sferrin said:
Dumb question but has the E-2 not always had aerial refueling? ???

US Navy E-2s have not had aerial refuelling capabilities until this new project. Without it, they had an endurance of 6+ hours, which was ample for working around the boat. It's only been recently that they've flown further afield and started to need the extra endurance.
 
France to get 3 E-2D (Navy) :
The French request to purchase three E-2D Advanced Hawkeye aircraft comes with an estimated price tag of $2 billion. The aircraft is to replace France’s legacy E-2C Hawkeye fleet. In addition to the aircraft, the country wants 10 T-56-427A engines, three AN/APY-9 radar assemblies, four AN/ALQ-217 electronic support measure systems and one Joint Mission Planning System, among other technologies.

 
This is a classic example of the right plane for the right job. I bet the USN wish they had done the same thing with the S3 Viking ? or even the Greyhound COD.
 
I cannot believe that the E-2 Hawkeye is 60 years old this year, I wonder if the US Navy will keep the Hawkeye to it’s hundredth birthday like the B-52.
 
If it ain't broke......

What real improvements could actually be made to the airframe? Replacement of metal components with composites where possible would have benefits but something truly substantial like a supercritical wing is unnecessary at what I assume are fairly low on station loitering speeds.
 
If it ain't broke......

What real improvements could actually be made to the airframe? Replacement of metal components with composites where possible would have benefits but something truly substantial like a supercritical wing is unnecessary at what I assume are fairly low on station loitering speeds.

You could add to that, If it ain't broke don't replace it.
 
I cannot believe that the E-2 Hawkeye is 60 years old this year, I wonder if the US Navy will keep the Hawkeye to it’s hundredth birthday like the B-52.
E-2 is closer in age to first Wright brothers flight than to us. M1 Abrams is closer to M3 Lee than to us. Time flies...
 
North Star Scientific has demonstrated radar that shows 3-dB improvement compared to a first-generation ultra-high-frequency (UHF) band (400 MHz-1 GHz) electronically scanned array (UESA) tested by the U.S. Navy nearly 20 years ago, says co-founder Jim Stamm.
  • Dual-band UESA shows 3-dB improvement
  • U.S. Navy awards transceiver assembly contract
By coupling the UESA with an S-Band (2.3-3.7 GHz) antenna array, North Star believes the technology could revolutionize the airborne early warning (AEW) and airborne tracking mission for the U.S. Navy’s existing fleet of Northrop Grumman E-2D Advanced Hawkeyes—not to mention the respective Boeing E-3 Airborne Warning and Control System fleets for the U.S. Air Force and NATO or a future aircraft that could replace the Navy’s E-2D.

To support a potential retrofit program, North Star has designed the dual-band array to be compatible with the Lockheed Martin APY-9 radar on the E-2D. The Navy has been funding North Star’s work for a decade under a program called the High-Gain UESA radar, but Naval Air Systems Command (Navair) officials say they are not ready to commit to a retrofit program for the E-2D fleet or for a potential follow-on program.

 
That one would be interesting, especially with mention of circular array.

The implementation i can think of based on the image in the article, seems to embed the element around the circumference of the rotodome, 54 elements means about 6-7 elements for 120 Deg. Maybe those 6-7 actually feeds several radiators so that electronic scanning in elevation could be performed.

The challenge would be as implied in the article is how to make the S-band part "transparent" to the UHF part
 
 
In a conversation about possible USN CVLs, a question was asked about launching the E-2 with a ski jump.

I was aware that the USN did ski-jump trials with a variety of aircraft, possibly including the E-2C, in the early 1980s. But those were apparently fairly low angle ramps.

In searching around, I stumbled across this reference on a Chinese website.


In 2005, Northrop Company did a skid-leap takeoff test on the E-2 Hawkeye early warning aircraft for the purpose of selling carrier-based early warning aircraft to relevant users. The experimental results proved that the E-2 Hawkeye early warning aircraft is fully adaptable Take off and land on the aircraft carrier deck! This test was verified by the US Naval Engineering Experiment Center, and the results were published in the US "Navy Engineer" magazine.
The test results of the United States show that the E-2C 2000 Hawkeye early warning aircraft uses a 12-degree ski jump deck, and when the deck wind is 25 knots, the total length of the simulated runway is 165 meters . The Hawkeye early warning aircraft can take off with a take-off weight of 24.948 tons , and the aircraft takes off completely. The process complies with the U.S. Navy's takeoff standards.

Northrop's test proved that the Hawkeye's maximum take-off weight is 25.85 tons, which means that the cost of the 165-meter runway on the 12-degree skid deck is only two thousand pounds of take-off weight.

The test results also proved that even when the deck wind is zero, the Hawkeye AWACS can take off normally when it rolls 240 meters, and can be decelerated by propeller reverse pitch, and land on a 100-meter runway!

This is a really frustrating quote. Lots of details that do not show up if you Google for them, and I can't actually find the "Navy Engineer" magazine. (It's not Naval Engineers Journal, as that has no articles about this topic in the right timeframe).

Any ideas?
 
NORFOLK, Va. – A Navy E-2D Hawkeye assigned to an East Coast Airborne Command and Control Squadron (VAW) crashed in the vicinity of Wallops Island and Chincoteague, Va., March 30. One crew member has died and two have been injured.

The E-2D crashed at approximately 7:30 p.m. Two crew members were rescued by Maryland State Police and transported to Wallops Island for follow-on medical treatment for non-life threatening injuries. The names of injured crewmembers will not be released due to privacy concerns.

Unfortunately, the third crew member was found deceased in the aircraft. The Worcester County Fire Department Dive Team supported the search and recovery of the deceased. The name of the crew member killed will not be released at this time, pending primary next of kin notification.

This incident is under investigation, and updates will be provided as the situation develops.
 
NORFOLK, Va. – A Navy E-2D Hawkeye assigned to an East Coast Airborne Command and Control Squadron (VAW) crashed in the vicinity of Wallops Island and Chincoteague, Va., March 30. One crew member has died and two have been injured.

The E-2D crashed at approximately 7:30 p.m. Two crew members were rescued by Maryland State Police and transported to Wallops Island for follow-on medical treatment for non-life threatening injuries. The names of injured crewmembers will not be released due to privacy concerns.

Unfortunately, the third crew member was found deceased in the aircraft. The Worcester County Fire Department Dive Team supported the search and recovery of the deceased. The name of the crew member killed will not be released at this time, pending primary next of kin notification.

This incident is under investigation, and updates will be provided as the situation develops.

Not good that a E-2D Hawkeye has crashed and with one fatality. RIP.
 
Wouldn't that be a check or training flight with only 3ppl onboard (1 pilot, 1 copilot and one instructor (the one that apparently died separated from his/her seat)?
 
Wouldn't that be a check or training flight with only 3ppl onboard (1 pilot, 1 copilot and one instructor (the one that apparently died separated from his/her seat)?

Not sure what you mean by "separated from his seat." There are no ejection seats in the E-2. But yes, there would be two more guys in back for an operational flight. It sounds to me like a test or check flight of some sort. And from reports that the two survivors both broke their legs, I'm guessing it was a ditching gone bad.
 
The instructor seat here being often... no real seat, that would explain why it is said that he was the only one found in the back of the plane
 
Found a report that the third crewman was found still strapped into the aircraft after it submerged. Which suggests he was back in the tube, not on the flight deck.

And per a Reddit thread, pilot proficiency flights require one GIB because there are flight safety systems that can't be accessed from the flight deck.
 
Found a report that the third crewman was found still strapped into the aircraft after it submerged. Which suggests he was back in the tube, not on the flight deck.

And per a Reddit thread, pilot proficiency flights require one GIB because there are flight safety systems that can't be accessed from the flight deck.

Not good news TomS, not good at all. Unless the third crewman did not have time to undo the straps before the plane submerged.
 
Dang, Poland truly goes all-out on its air force. Of course they have serious reasons to rearm like crazy.
 

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