Grumman E-1 Tracer

Last updated
E-1 (WF) Tracer
E-1B VAW-121 CVW-6 CVA-42.jpg
E-1B Tracer
General information
Type Carrier-based airborne early warning
National originUnited States
Manufacturer Grumman
Primary user United States Navy
Number built88
History
Introduction date1960
First flight17 December 1956
Retired1977
Developed from Grumman C-1 Trader

The Grumman E-1 Tracer (WF prior to 1962) was the first purpose-built airborne early warning aircraft used by the United States Navy. It was a derivative of the Grumman C-1 Trader and entered service in 1960. It was replaced by the more modern Grumman E-2 Hawkeye by the mid-1960s-1970s.

Contents

Design and development

Following World War II, modified attack aircraft, including the AD-3W Skyraider and TBM-3W Avengers, filled the airborne early warning role. In 1955, engineers at Grumman Aircraft Engineering Corporation aspired to create a AEW platform based on the proven S2F Tracker antisubmarine warfare aircraft. [1]

The E-1 was designated WF under the 1922 United States Navy aircraft designation system; the designation earned it the nickname "Willy Fudd". The Tracer was derived from the C-1 Trader, itself a derivative of the S-2 Tracker carrier-based antisubmarine aircraft, known as S2F under the old system, nicknamed "Stoof", leading to the WF/E-1, with its distinctive radome, being known as "Stoof with a Roof." [1] [2] The E-1 featured folding wings of a very particular design for compact storage aboard aircraft carriers; unlike the S-2 and C-1 in which the wings folded upwards, the radome atop the fuselage required the E-1's designers to re-adopt an updated version of the Grumman-patented "Sto-Wing" folding wing system, pioneered on their earlier Grumman F4F-4 Wildcat piston-engined fighter [3] [4] of the early-WWII period, to fold its wings aftwards along the sides of the fuselage. [5]

Its prototype made its first flight on December 17, 1956. Just over fourteen months later the first WF-2 (E-1B) Tracer made its maiden flight. [1]

With carrier operations being a necessity for the aircraft, various features are geared towards providing stability and control when launching from and landing on an aircraft carrier. The distinct twin-tail found on the E-1 allows for greater rudder control and stability on the yaw axis without the implementation of one large unwieldy space-taking vertical stabilizer. It also provides a degree of redundancy, allowing a pilot to maintain some yaw control if one rudder is damaged. [6] The positioning of the rudders also place them on the edges of the prop wash generated by the spinning propellers of the aircraft, creating additional stability as the fast wind flowing over the stabilizers creates a stronger rectifying force for any sideslip or rudder input than if the vertical stabilizers were placed out of the prop-wash zone. While this placement would lead to a yawing moment on most smaller aircraft, as the helical motion of the prop wash would collide with only one side of the vertical stabilizer, the dual propellers on the E-1 create opposing yawing torques on the aircraft of the same magnitude, leading to approximately net zero yaw as a result of prop wash. [7]

The E-1, despite having a set of landing gear mounted under its nose, is a tail-dragger aircraft. This configuration provides the airframe with a distinct "nose-up" appearance when taxiing, and allows for the wings to generate more lift on launch from a catapult than if the aircraft was level due to the higher angle-of-attack (AoA) of the aircraft. [8]

Radar

The Tracer was fitted with the Hazeltine AN/APS-82 in its radome and fuselage, an substantial upgrade to its predecessor the AN/APS-20. The AN/APS-82 featured an airborne moving target indicator (AMTI), which compares the video of one pulse time to the next in reflected radar energy to distinguish a flying aircraft from the clutter produced by wave action at the ocean's surface. [1] The energy reflected from an aircraft changes position rapidly compared to the energy reflected from the surrounding sea.

The radar was also capable of ground stabilization and target height determination. [2] [1]

A airfoil-shaped dome protects the 17 by 5 feet (5.2 m × 1.5 m) parabolic dish antennae, mounted above the fuselage. [2]

Operational history

Grumman E-1B Tracer of RVAW-110 after service aboard USS Franklin D. Roosevelt in 1976, showing the Grumman-patented Sto-Wing wing folding arrangement Grumman E-1B 147223 RVAW-110 JAX 19.07.76 edited-2.jpg
Grumman E-1B Tracer of RVAW-110 after service aboard USS Franklin D. Roosevelt in 1976, showing the Grumman-patented Sto-Wing wing folding arrangement

As one of the first carrier based early warning aircraft, the E-1 Tracer served from 1960 to 1977, [1] although considered only an interim type, being replaced by the Grumman E-2 Hawkeye in the mid-1960s. [9] First deployed with VAW-11 on board USS Constellation (CV-64). [1] During the early years of the Vietnam War, E-1s saw extensive service, providing combat air patrol (CAP) fighters with target vectors, and controlling Alpha strikes over North Vietnam. With a radius of 250–300 miles, the E-1B served as an early warning to strike aircraft of enemy MiG activity. [10] Tracer-equipped VAW squadrons logged 56 deployments in support of operations over Southeast Asia. [1]

By May 1973, most E-1Bs were retired, with only four VAW-121 Tracers based at NAS Norfolk, Virginia, still in service. These aircraft were soon retired during mid-summer 1977 following a final cruise on board USS Franklin D. Roosevelt and were ferried to the Davis-Monthan storage facility. The E-1B Tracer was struck from the inventory by 1977.

Variants

The WF-2 prototype. Grumman WF-1 Tracer prototype NAN5-89.jpg
The WF-2 prototype.
WF-2 of VAW-11 on the catapult of USS Hancock in 1962 Grumman WF-2 Tracer of VAW-11 Det. L aboard USS Hancock (CVA-19) on 23 August 1962.jpg
WF-2 of VAW-11 on the catapult of USS Hancock in 1962
WF-1
Proposed AEW derivative of the S2F-1; not built. [11]
G-117
Company designation for WF-2. One TF-1 (BuNo 136792) converted into aerodynamic prototype for WF-2 without electronics, later rebuilt as a standard C-1A, retaining the twin tail.
WF-2
Production Airborne Early Warning version of the TF-1 Trader, redesignated E-1B in 1962, 88 built.
E-1B
WF-2 redesignated in 1962.

Operators

Flag of the United States (23px).png  United States


Aircraft on display

There are five E-1 Tracers preserved at museums throughout the United States:

Another 11 E-1 Tracers are in storage at United Aeronautical, an aircraft surplus yard located just outside Davis–Monthan Air Force Base in Tucson, Arizona. [14] At least one of those aircraft (E-1B, BuNo 148922) was sold to a private collector in 2011 with the intent to restore to fly, although no updates on the project have been posted since 2012. [17] [18]

Specifications

3-view line drawing of the Grumman WF-2 Tracker Grumman WF-2 Tracker 3-view line drawing.png
3-view line drawing of the Grumman WF-2 Tracker

Data from Standard Aircraft Characteristics [19]

General characteristics

Performance

Avionics

See also

Related development

Aircraft of comparable role, configuration, and era

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References

Notes

  1. 1 2 3 4 5 6 7 8 9 10 11 12 13 "E-1B Tracer". Naval History and Heritage Command, National Naval Aviation Museum. Retrieved 18 August 2024.
  2. 1 2 3 "Airborne Command & Control and Logistics Wing, Command History". Naval Air Force, U.S. Pacific Fleet (United States Navy). Retrieved 18 August 2024.
  3. Dwyer, Larry (19 February 2014). "The Aviation History Online Museum - Grumman F4F Wildcat". aviation-history.com. The Aviation History Online Museum. Retrieved April 2, 2016. The F4F-4 was the first version of the Wildcat to feature a Grumman innovation, the Sto-Wing. The Sto-Wing used a novel approach using a compound angle folding-wing that was unique to Grumman...It was a successful design that was later used on the F6F Hellcat and TBF Avenger.
  4. "WING-FOLDING MECHANISM OF THE GRUMMAN WILDCAT - An American Society of Mechanical Engineers Historic Mechanical Engineering Landmark". asme.org. American Society of Mechanical Engineers. May 15, 2006. Archived from the original on October 21, 2015. Retrieved April 29, 2017. The innovative wing folding mechanism (STO-Wing), developed by Leroy Grumman in early 1941 and first applied to the XF4F-4 Wildcat, manufactured by the Grumman Aircraft Engineering Corporation, is designated an ASME Historic Mechanical Engineering Landmark.
  5. Jackson, David D. "Surviving Grumman S2F Tracker Information Repository." s2ftracker.com. Retrieved: 29 October 2011.
  6. "Grumman WF-2 / E-1 Tracer". www.militaryfactory.com. Retrieved 2024-01-30.
  7. "Effect of Propeller on Airplane Dynamics" (PDF). aircraftspruce.com. 14 February 2024. Retrieved 14 February 2024.
  8. "Grumman WF-2 / E-1 Tracer". www.militaryfactory.com. Retrieved 2024-01-30.
  9. Jacobs, Brian K. (June 2000). "Warranty/Cannibalization Issues: Disruptive Forces in the Production and Maintainability of the E-2C Aircraft" (PDF). Defense Technical Information Center (DTIC). United States Navy . Retrieved 18 August 2024.
  10. Sullivan 1990, p. 7.
  11. "Naval Aviation News, 1989". Google Books. Chief of Naval Operations. May 1989. pp. 14–15. Retrieved 19 August 2024 via University of Illinois at Urbana-Champaign.
  12. "Warbird Registry - Grumman Tracker/Trader/Tracer - A Warbirds Resource Group Site".
  13. "New England Air Museum".
  14. 1 2 "USA E-1B Tracers". Archived from the original on 2015-07-16. Retrieved 2015-05-21.
  15. "Grumman E-1B".
  16. "E-1 Tracer | National Naval Aviation Museum". www.navalaviationmuseum.org. Archived from the original on 2014-05-02.
  17. "United Aeronautical Corporation Tracer Photos". Archived from the original on 2015-05-30. Retrieved 2015-05-21.
  18. "Archived copy". Archived from the original on 2015-07-11. Retrieved 2015-05-21.{{cite web}}: CS1 maint: archived copy as title (link)
  19. "Standard Aircraft Characteristics:Navy Model E-1B Aircraft: NAVAIR 00-110AW1-1." Naval Air Systems Command, 1 July 1967.
  20. Lednicer, David. "The Incomplete Guide to Airfoil Usage". m-selig.ae.illinois.edu. Retrieved 16 April 2019.

Bibliography

  • Sullivan, Jim. S2F Tracker in Action (Aircraft in Action No. 100). Carrollton: Texas: Squadron/Signal Publications, 1990. ISBN   978-0-89747-242-5.
  • Winchester, Jim, ed. "Grumman S-2E/F/G/UP Tracker." Modern Military Aircraft (Aviation Factfile). Rochester, Kent, UK: Grange Books plc, 2004. ISBN   1-84013-640-5.
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