Sikorsky Product History



S-61 HSS-2, SH-3A/B/D/G/H, S-61L/N, CH/HH-3C/E/F

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Four Stacked Aircraft – October, 1960

Background

The Sikorsky S-61 designation was assigned to the company's first twin engine helicopter that was designed from the ground up to take full advantage of emerging turbo-shaft engine technology. This new model marked the end of reciprocating engine installations at Sikorsky and ushered in the era of the lighter and more compact turbine engines. The S-61 served all branches of the US Military as well as commercial airline service. It began its long production career as a model specifically tailored to anti-submarine warfare for the US Navy bearing the designation HSS-2. The model history described below focuses on this most important version of the S-61 helicopter series.

The threat of Soviet nuclear-armed submarines arose soon after the first Russian nuclear detonation in 1947 which immediately elevated anti-submarine warfare (ASW) to a mission of immense national importance. In 1950, at the height of the Cold War, the CIA noted an unconfirmed report that the only atomic bomb the Soviets had produced would have to be delivered by submarine. In 1955 the new Chief of Naval Operations, Adm. Arleigh Burke, asked the Committee on Undersea Warfare of the National Academy of Sciences to conduct an Anti-Submarine Warfare ASW study. That study, Project Nobska, concluded that “Confronted with quiet submarines of long endurance, a sufficiently accurate means of navigation, and suitable weapons, defense against shore bombardment by submarines becomes a huge problem.”

World War II experience in the North Atlantic demonstrated the futility of engaging submarines with surface vessels. The population of Nazi U-Boats peaked at 240 in 1943. Against this force, 875 sonar-equipped escorts could not conclusively prevail. There was a need to combine the sonar’s detection, localization, and targeting, with the speed of an aircraft.

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SH-3H of HS-8 dipping SONAR

One of the solutions was the ASW helicopter with active dipping sonar, a concept first demonstrated on a Sikorsky HOS (R-6) helicopter by the Naval Research Laboratory in 1946.

Starting in the early 1950’s, the U.S. Navy, Sikorsky and the Pacific Division of Bendix Aviation Corp. began developing the technology for helicopter ASW, combining the speed of an aircraft with underwater sonar previously based aboard ships. Using Sikorsky HSS-1 (H-34) helicopters, hunter-killer technology and tactics were developed and fielded. One helicopter carried a submersible sonar sensor and an airborne processor to detect, locate, and display the target; another helicopter carried a torpedo to address it. Space and payload limits prevented one helicopter from carrying both.

Simultaneously, the Navy recognized the need for improved helicopter engine technology and in 1953 awarded General Electric a $3M contract for the XT-58 “baby gas turbine.” The engine was to weigh 400 pounds and produce 800 HP, a two-to-one improvement over the legacy, reciprocating Wright R-1820 engine powering the HSS-1. The result exceeded expectations. The resulting engine weighed 324 pounds and generated more than 1,000 HP in a 10 cubic-foot package compared with the legacy piston engine of 62 cubic-feet.

The increase of almost four times the power/weight ratio in a compact 1/6th size permitted Sikorsky, for the first time, to truly tailor a helicopter to a mission, rather than tailor a mission to fit the payload and space remaining after the engine was installed.

In the mid 1950’s the U.S. Navy requested that Sikorsky modify an existing HSS-1N to accommodate two T58 engines in place of the R-1820. This was designated as the HSS-1F and showed the significant benefit of turbo-shaft engines over piston engines. The engines were not only lighter and smaller but provided 2,000 horsepower compared to the 1,525 available from the piston engine.

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Showing the Large Piston Engine Installation in the Nose

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HSS-1F Showing the Compact Installation of the T058 Engine

The benefits of the turbo-shaft were profound. The light weight and small size allowed the Sikorsky designers to place all of the mechanical components (engine, main gearbox, driveshaft, tail gearboxes, and tail rotor) on the top of the fuselage and freed the cockpit and cabin design to be tailored to the mission requirements. Heretofore, the major design problem had been the location of the heavy piston engine with the cockpit and cabin squeezed into the remaining space.

With this new engine, Sikorsky was able to offer the Navy, in place of the HSS-1F, the HSS-2, an all-new design beautifully tailored to the ASW mission. Sikorsky Engineering Report 61007 documenting the October 1957 HSS-2 Mockup Review reported:

“The success of the HSS-1 piston engine helicopter as an anti-submarine search and attack vehicle has prompted the Navy and Sikorsky Aircraft Division to enter into the next logical step, the development of a turbine powered modification of the HSS-1, which incorporates twin turbine engines, amphibious characteristics, all the technological and functional advantages gained through experience with the HSS-1, with capability of performing a combined Hunter-Killer ASW mission.

A new, low frequency, sonar (AQS-11) is being developed concurrently by the Pacific Division of Bendix Aviation Corp. as Contractor Furnished Equipment. This sonar together with the four (4) hour endurance HSS-2 constitute the major components of the first weapon system to meet Navy’s ASW requirements.

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HSS-2 Mockup - October, 1957

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SH-3A’s over the USS Kearsarge in the early 1960’s

The Bendix dipping sonar system consisted of a sonar reeling machine, a reel of 500 feet of sonar cable, the submersible sensor, sonar data processing and display equipment, and a sonar operator control console. The HSS-2 also featured navigation and mission avionics and sensors to provide automated approach to, and maintenance of, a hover stabilized above the submersed sensor and provisions for carrying and firing torpedoes. This powerful mission suite was enclosed in an airframe with hull and sponson flotation based on the iconic Sikorsky Pan American Clipper flying boats with which Pan American Airlines had pioneered international transoceanic air travel two decades earlier.

Configuration Features

The HSS-2 was primarily intended for the ASW mission, but Marine Assault and Army Transport missions were also considered. Sikorsky Engineering Report 61003, Engineering Basic Data Report Model HSS-2, HUS-2, H34B Helicopters, 2/26/57 states:

“General design objectives are:

a. Design to accomplish given missions

b. Minimum weight

c. Component life and Reliability

d. Minimum drag and cleanest external surface

e. Ease of maintenance

f. Manufacturing simplicity.”

The most distinctive feature of the Sikorsky S-61 series is the use of a boat hull with outboard floats (called sponsons). The hull design with a 12 degree deadrise angle was derived from Sikorsky's extensive experience in flying boat design. The outboard sponsons significantly increased the lateral stability in the water. The main landing gear retracted into the sponsons and water take-off and landings were performed with the gear retracted. To increase lateral stability and buoyancy, inflatable floats were added to the outsides of the sponsons.

The other significant configuration item was mounting of the engines and drivetrain above the cabin. This completely separated the cockpit and cabin from the machinery and reduced noise while increasing safety compared to the prior piston engine designs. As noted earlier, this was due to the significant reduction in the size and volume of the turboshaft engines.

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HSS-2 hovers over deck of USS Champlain March 1961

The S-61 (HSS-2) was Sikorsky’s first model to employ a main transmission capable of providing almost 100- to-1 reduction ratio needed for the turbo shaft engine’s high, 20,000 rpm, output speed. Prior MGBs had reduction ratios of only 10 or 12- to-one reflecting the much lower output speeds of piston engines. Higher engine output speed forced advancements in free wheel unit technology and high speed bearings.

The main rotor head featured technology previously proven on the S-58, such as basic rotor configuration and the NACA 0012 airfoil, but for the first time offered oil-lubricated rotor bearings, a departure from the previous grease lubrication scheme. Oil lubrication eliminated the need for periodic grease system maintenance. Another important feature of the HSS-2 was the fully automatic main rotor blade fold. Along with simple manual fold of the tail rotor pylon, this allowed for a convenient, compact placement aboard ship. The rapidity and reliability of the blade fold was important operationally and became more so when S-61s were operated from vessels smaller than the ASW carriers on which they were initially deployed.

Automatically stabilized flight and an automated approach to, and maintenance of, a stable hover had been developed in the previous S-58 and S-56 models. An Automatic Stabilization System, ASE, provided electronically stabilized flight. A coupler provided the autopilot functions to automatically approach and maintain a hover fifty feet above the ocean surface, into the wind, stabilized relative to the sonar cable supporting the submerged sonar transducer. A radar altimeter provided altitude; a Doppler radar system provided airspeed data for stabilization and auto approach. Earlier ASE and Coupler systems had consisted of vacuum tube circuits. For the first time HSS-2 systems were fully transistorized solid state circuits.

The HSS-2 was fitted with a two-piece personnel door on the left side, just aft of the cockpit. It also had a large siding door on the right side in the aft cabin. This greatly aided in moving equipment in and out of the cabin.

General Arrangement Drawing

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HSS-2 three view drawing

Mission Systems

The HSS-2 was equipped with a comprehensive suite of mission electronics that allowed it to track submarines in all weather, day and night. This equipment included:

|AN/AQS-10 |Dipping sonar |

|AN/ARC-39 |low frequency ADF |

|AN/ARA-25 |UHF ADF |

|AN/APN-130 |Doppler radar |

|AN/APN-117 |Radar Altimeter |

|AN/ARC-52 |UHF Radio |

|AN/ARN-21 |TACAN |

|AN/ASA-13 |Navigation Plotter |

|AN/AYK-2 |Navigation Computer |

|AN/APX-6 |IFF |

In addition, torpedoes could be carried and launched, making the HSS-2 a submarine hunter/killer.

General Characteristics and Performance

|Dimensions | |

|Length, rotors turning |72' 7 |

|Height, rotors turning |16' 10 |

|Width, over sponsons |16' 0 |

|Length, folded |46' 6 |

|Height, folded |16' 10 |

|Width, folded |16' 0 |

| | |

|Main Rotor | |

|Diameter |62' 0 |

|Number Blades |5 |

|Chord |18 ¼” |

|Solidity |0.0738 |

|Rotor Speed (100%) |203 rpm |

| | |

|Tail Rotor | |

|Diameter |10' 4” |

|Number Blades |5 |

|Chord |7 11/32” |

|Solidity |0.1885 |

|Tail Rotor Speed (100%) |1,244 rpm |

| | |

|Horizontal Tail | |

|Span |6' 0 |

|Area |20.0 sq ft |

|Taper Ratio |1.5:1 |

|Aspect Ratio |1.80 |

| | |

|Landing Gear | |

|Type |Retractable |

|Configuration |Tail Wheel |

|Tread |13' 0 |

|Wheelbase |23' 4 |

| | |

|Engines | |

|Number |2 |

|Manufacturer |GE |

|Model |T58-GE-6 |

|Normal Rated Power |900 hp |

|Military Power |1,050 hp |

| | |

| | |

|Weights | |

|Design Gross Weight |16,237 lb |

|Alternate Gross Weight |19,000 lb |

|Limit Load Factor DGW |+2.5g/-0.5g |

|Limit Sink Speed |8 fps |

| | |

|Performance | |

|Vmax, SLS |135 kt |

|Vcruise, SLS |125 kt |

|Service Ceiling |14,000 ft |

|Combat Endurance |4 hrs |

Production History

The Sikorsky model designation for the HSS-2(SH-3A) is the S-61. Since 1959, Sikorsky Aircraft has produced 794 aircraft based on the original S-61. At the end of twenty years production, Sikorsky produced the last S-61 in 1980. Sikorsky licensees in Great Britain, Japan, Canada, and Italy have produced an additional 679. It is estimated that up until 2010 S-61s had flown more than 24 million hours in military service and civil use.

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S-61 flight hours through 2010

Sikorsky Production by Type

|Sikorsky No |Design |Quantity |

|S-61 |XHSS-2 |10 |

|S-61 |HSS-2 (SH-3A) |245 |

|S-61B-1 |CHSS-2 (CH-124) |41 |

|S-61 |HSS-2Z (VH-3A) |8 |

|  |Sub-total |304 |

|  |  |  |

|S-61A |CH-3B |3 |

|S-61A |S-61A |52 |

|S-61D |YSH-3D |4 |

|S-61D |SH-3D |96 |

|S-61D |VH3D |11 |

|S-61D |S-61D |15 |

|  |Sub-total |181 |

|  |  |  |

|S-61R |CH-3C |74 |

|S-61R |CH-3E |45 |

|S-61R |HH-3E |14 |

|S-61R |HH-3F |40 |

|  |Sub-total |173 |

|  |  |  |

|S-61L |S-61L |13 |

|S-61N |S-61N |123 |

|  |Sub-total |136 |

|  |  |  |

|  |Total |794 |

Production Quantities

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S-61 Production by year

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S-61 Licensed Production

Related Models

Sikorsky developed a series of derivatives based on the S-61 (HSS- 2.) These models are summarized below.

S-61 Commercial Models

S-61L

The S-61L was designed 1961 with a longer fuselage without sponsons for commercial passenger transport. It first flew on November 2, 1961, and was 4 ft 3 in (1.30 m) longer than the HSS-2 in order to carry a substantial payload of freight or passengers. Initial production S-61Ls were powered by two 1350 shp (1005 kw) GE CT58-140 turboshafts, the civil version of the T58. The S-61L features a modified landing gear to reduce weight. The S-61L was configured to carry up to 30 passengers.

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First S-61L delivered to Los Angeles Airways

S-61N

This was followed by the S-61N which made its first flight on August 7, 1962. Identical to the S-61L except for retaining the HSS-2 (SH-3) floats, this version was optimized for overwater operations, particularly oil rig support. Both the S-61L and S-61N were subsequently updated to Mk II standard with improvements including more powerful CT58-110 engines giving better hot and high performance, vibration damping and other detail refinements.

The first S-61N Serial No. 61143 was delivered to Mitsubishi Corporation on September 26, 1962. This helicopter was still in service serving the Irish Coast Guard under a contract with CHC in 2013. Although the last S-61N was delivered in May 1980, many S-61N helicopters are still in service in 2013. Many modifications have been made over the years including removing to front fuselage plug (the Shortsky) to save weight and increase external lift capability, removing the sponsons and replacing with S-61L style landing gear and many avionic upgrades as technology has progressed.

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The first S-61N still in service in 2013 with the Irish Coast Guard

CH-3B

On the military side, the U.S. Air Force ordered 3 SH-3A helicopters with the all ASW equipment removed to provide logistics support for 2 offshore early warning radar stations (Texas Towers) located out in the Atlantic Ocean off of the New England Coast. These helicopters were based at Otis AFB, Massachusetts and designated as the CH-3B.

Not long after acceptance by the Air Force CH-3B (62-12574), dubbed the “Otis Falcon“, flew from Otis AFB Massachusetts to Paris France. Total flight time was 35.5 hours and included stops in Labrador, Canada, Greenland, Iceland and Scotland before landing in Paris. The “Otis Falcon” upon completing its European visit was returned to the US via ship.

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U.S. Air Force CH-3B “Otis Falcon”

S-61R Models

The S-61R was a company funded model developed as a derivative of the S-61/SH-3 Sea King model. It featured a substantially-revised fuselage with a rear loading ramp, a conventional though water-tight hull instead of the S-61's boat-hull, and retractable tricycle landing gear. The fuselage layout was similar to the larger S-65(H-53) variants.

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2012 photo of S-61R N664Y, the S-61R prototype, with sponsons removed

General Arrangement Drawing

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CH/HH-3C/E/F 3 view drawing

The S-61R prototype made its first flight in 1963. During its development, the U.S, Air Force placed an order for the aircraft, which was designated the CH-3C. The Air Force used the CH-3C for utility missions. A rescue version, HH-3C with camouflage paint and rescue equipment added was equipped to recover downed pilots. The CH-3E variant with more powerful engines followed in 1965.

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U.S. Air Force CH-3C lifts Army jeep with mounted 105mm howitzer 1964

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HH-3C flying over Vietnam 1968

The HH-3E featured protective armor, self-sealing tanks, a retractable inflight refueling probe, jettisonable external tanks, a high-speed hoist, and other specialized equipment. It was the work horse rescue helicopter in Vietnam until the arrival of the HH-53B/C. The HH-3E known as the “Jolly Green Giant”, saw wide and excellent service in search and rescue missions. One HH-3E, Serial No. 67-14709, had a long and distinguished history. Assigned to the 37th Air Rescue and Recovery Squadron at Da Nang Air Base, South Vietnam, it flew with the call sign “Jolly Green 2” in the Vietnam War. During 32 months of service in Vietnam, the crewmen assigned to it received one Air Force Cross and fourteen Silver Stars for heroism. In addition, they were credited with the rescue of 27 American Airmen. This helicopter has been restored and is on display at The National Museum of the Air Force, Dayton, Ohio.

The HH-3E featured in-flight refueling equipment permitting the world’s first non-stop helicopter flight across the Atlantic Ocean, from New York to Paris, in 1967. Two U.S. Air Force Sikorsky HH-3E "Jolly Green Giant" search and rescue helicopters departed New York on May 31st on their way to a 30 hour 46 minute flight to Paris. Refueled nine times each by C-130 tanker planes at altitudes of between 1,000 and 9,000 feet and speeds of 125 mph, the helicopters landed at Le Bourget during the 27th Paris Air Show. The two helicopters took off at 1:05 in the morning, New York time, in order to arrive during the middle of "Helicopter Day" at 1:51 in the afternoon, Paris time. Air Combat magazine remembered this .historic event in its April 1992 edition. A link to this article is provided below.



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Air Force HH-3E pilots, Major Herbert Zehnder (left) and Major Donald Maurras (right) are greeted by|

Igor Sikorsky at the 27th Paris Air Show after a non-stop Atlantic crossing in 1967.

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U.S. Air Force HH-3E “Jolly Green Giant” rescue helicopter.

HH-3F

In 1965, the U.S. Coast Guard ordered a S-61R version designated HH-3F “Pelican” for all-weather extended range search and rescue (SAR) missions over the open sea. The HH-3F had a range of 655 nautical miles. The first of 40 HH-3F helicopters was delivered in 1969. Deliveries continued for the next four years. In addition the Coast Guard obtained five U.S. Air Force HH-3E helicopters and converted them to the HH-3F configuration. The HH-3F was removed from service after 25 years in 1994.

The unique HH-3F Avionics suite included:

AN/APN·195 Radar

The AN/APN-195 radar set was a lightweight, weather radar system consisting of a receiver transmitter, synchronizer, control panel, indicator and antenna. The radome was mounted on the nose of the helicopter. The radar provided an accurate and continuous picture of weather conditions (weather map) in the general sky area ahead of the helicopter and was used for weather avoidance, a navigation and search aid to extend the vision of the pilot. The radar had 3 ranges: 10, 30, and 60 miles.

AFCS

The Avionics and Automatic Flight Control System (AFCS) on the HH-3F was a giant step forward in Coast Guard helicopters. The AFCS allowed coupled approaches and coupled hovering and in conjunction with the Navigation Computer allowed the helicopter to flight coupled search patterns (Ladder Search, Sector Search, Square Search and a holding pattern) which allowed both pilots to aid in the visual and radar search.

AN/AYN·1 Navigation Computer

The navigation computer was a compact, lightweight, computer system that had the capability of solving aircraft navigational problems with information derived from aircraft navigation systems which included:

Manual Inputs. (Destination, desired search pattern and length of legs, magnetic variation and wind velocity).

Automatic Inputs to the computer were:

• Doppler (Ground Speed and Drift)

• TACAN (Distance and Bearing)

• LORAN “A” Auto-track

• Magnetic Heading

• True Airspeed

Based on these inputs the computer calculated:

• Present Position

• Destination Bearing

• Destination Range

• Along Track Distance

• Cross Track Error

• Track Angle

• Wind Velocity

• Wind Direction

• True Airspeed

• Magnetic Heading

• Estimated Time Enroute

• Arrive Destination

A Map Display required the pilot to insert a standard paper air navigation chart and the computer provided a continuous indication of present position by a “Bug Light” and provided a permanent record of the flight by pin punching the chart every 10 seconds.

In 2013, with GPS, a few APPs, and an iPad, all this information is at your fingertips but the HH3F was “State of the Art” in 1969.

The HH-3F Pelican was the workhorse of the U.S. Coast Guard. Serving from the early 1969 until well into the late 1994, the HH-3F is credited with saving 23,169 lives and assisted 65,377 others. With a speed of 142 knots and a maximum range of 650 nautical miles, the HH-3F was well suited to its amphibious, all weather search and rescue duties. A common phrase among USCG Aircrewman was "Only God has saved more lives".

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U.S Coast Guard HH-3F Pelican

In Italy Augusta built an S-61R variant, named AS-61R under license. Augusta produced 22 helicopters for the Italian Air Force.

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Italian Air Force AS-61R (HH-3F) rescue helicopter

Another HSS-2 derivative was the S-67 Blackhawk gunship. This was a Sikorsky developed aircraft with a streamlined fuselage, main rotor head and blade modifications for high speed, and speed brakes mounted on wing trailing edges to enhance maneuverability. Begun in 1969, first flight was in August of 1970. In 1974, with a ducted fan replacing the conventional tail rotor, the S67 reached a speed of 230 mph. The S67 did not enter production. Additional information is available on the Archives Website at:



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S-67 Blackhawk gunship

VH-3A/D Presidential Support Helicopters

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VH-3D approaching the White House South Lawn

By far, the most familiar HSS-2 derivative is the Marine Helicopter Squadron One (HMX-1) Executive Flight Detachment VH-3D Marine One helicopter with its distinctive white top. (The white tops date from

HMX-1 VH-34C helicopters first used in the Eisenhower administration. Without air conditioning, the original white tops were intended to deflect heat for a cooler interior.) The VH-3’s featured communication equipment, executive furnishings, and air conditioning tailored to the mission. This aircraft transports the President of the United States, other members of the Executive Branch, and other VIP’s. Sikorsky delivered the first VH-3A in 1962. An upgraded derivative, the VH-3D, continues this proud service today.

The VH-3A helicopters as they were removed from HMX-1 duties were distributed to museums and one was given to Anwar Sadat, the President of Egypt, a gift from President Nixon. Other went to U.S. Navy for use as VIP transports. The last operational VH-3A assigned to HSC-2, Norfolk to ferry Admirals to the Pentagon and other missions as required. The HSC-1 VH-3A flew its final mission on January 27, 2006.

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President Kennedy boards the VH-3A helicopter for the first time May 8, 1962

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Last VH-3A flight January 27, 2006

VH-3D

VH-3D equipment includes Day/night/all-weather operations, self-contained navigation system, GPS, TCAS, survivability systems, and crash-survivable flight information recorder sensor, and carries no weapons. Communications include extensive secure and non-secure communication systems; and EMP hardening. The last VH-3D helicopter was delivered in 1976. The VD-3D helicopters are supported by Sikorsky Aircraft which provides a closed loop supply system and a scheduled depot level maintenance program (Special Periodic Aircraft Rework). The helicopters are brought back to “Like New” condition during each SPAR and systems modernized as new technology develops.

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A VH-3D from HMX-1 departs the White House South Lawn

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VH-3D Night takeoff with President Obama visible in window

Augusta ASH-3D/TS

In Italy, Augusta built 2 helicopters, under license, similar to the VH-3A for the Italian Air Force to provide transportation for the Pope. This helicopter served The Holy See causing some to call it a “Holy See King” rather than a “Sea King”.

The ASH-3D/TS helicopters of the Italian Air Force Volo Papale (Papal Flight) carried the Pope for 37 years (1975-2012). In October, 2012 the ASH-3D helicopters were replaced by the much smaller AW-139.

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Italian Air Force Volo Papale (Papal Flight) ASH-3D/TS

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The last ASH-3D/TS Volo Papale (Papal Flight) in October 2012

S-61T

The S-61 helicopter lives on. In 2010, 29 years after delivering the last S-61 helicopter, Sikorsky Aircraft received a Department of State contract for remanufactured S-61N and S-61T Titan helicopters. The contract was a 5 year Indefinite Delivery-Indefinite Quantity contract for up to 110 modernized S-61 helicopters. The first deliveries of two S-61N helicopters was completed on June 10, 2010. The S-61T Program is managed by Sikorsky Aerospace Services.

Notable Accomplishments for Sikorsky S-61 Series

|1959 |SH-3A |First single rotor helicopter with 5 blades |

| | |First helicopter with automatic blade fold |

| | |First to be able to simultaneously hunt and kill submarines (dipping sonar + |

| | |torpedoes) |

| | | |

|1960 | S-61L |First helicopter designed specifically for airline use |

| | | |

|1961 |SH-3A |Set world’s speed record for helicopters: |

| | |3 km sea level speed record (192.9 mph) |

| | |100 km speed record (183 mph) |

| | |500 km speed record (179.5 mph) |

| | |1,000 km speed record (175 mph) |

| | | |

|1961 |SH-3A |First deliveries to U.S. Navy |

| | | |

|1961 |S-61L |World's first multi-turbine helicopter certified for passenger transport. |

| | | |

|1961 |Mod SH-3A |Set new speed records (with sponsons removed): |

| | |3 km sea level speed record (198.8 mph) |

| | |25 km speed record (210.6 mph) |

| | | |

|1962 |S-61L & N |First civil helicopters certified as IFR transports |

| | | |

|1962 |VH-3A |Presidential transport helicopters delivered |

| | | |

|1965 |S-61R |First helicopter operational in-flight refueling |

| | | |

|1965 |S-61F |Experimental compound version achieves 204 knots (6 bladed rotor, two J69 jets) |

| | | |

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| | |S-61F compound helicopter |

|1965 |SH-3A |First flight minesweeping version |

| | | |

|1965 |RH-3A |First helicopter to fly non-stop across Atlantic (with 9 In-flight refuelings) |

| | | |

|1967 |HH-3E |Apollo 11 astronauts recovered by SH-3D “66” of squadron HS-4. The first of many |

| | |such recoveries by the SH-3D |

| | | |

|1969 |SH-3D |SH-3H remanufacturing program initiated |

| | | |

|1971 |SH-3H |Last S-61 produced at Sikorsky after 20 years in production |

| | | |

| | | |

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SH-3A recovers Apollo 17 Astronauts December 19, 1972

Configuration Summary

|Military |Civil |Fuselage, Landing |Horiz. Tail |Tail Rotor |Sponson |Max Gross Weight|

| | |Gear | | | | |

|  |S-61A |Short, TW |small |small |small |19,000 |

|SH-3A |S-61B |Short, TW |small |small |small |19,000 |

|VH-3A |S-61V |Short, TW |small |small |small |19,000 |

|CH-3B |  |Short, TW |small |small |small |19,500 |

|CH-3C |S-61R |Ramp, Tri |large |small |Stub wing |22,050 |

|SH-3D |S-61D |Short, TW |large |large |small |21,500 |

|H/CH-3E |  |Ramp, Tri |large |small |Stub wing |22,050 |

|HH-3F |  |Ramp, Tri |large |small |Stub wing |22,050 |

|SH-3G |  |Short, TW |large |large |small |21,500 |

|U/SH-3H |  |Short, TW |large |large |long |21,500 |

|  |S-61L |Long, TW |large |small |strut |20,500 |

|  |S-61N |Long, TW |large |large |large |20,500 |

|  |S-61T |Short, TW |large |large |strut |20,500 |

Definitions:

Short Fuselage – original design for HSS-2, SH-3A

Long Fuselage – S-61L & S-61N civil versions, 50 inches longer than short

Rear Ramp – S-61R new design with tricycle LG, 39.5 inches longer than short

Small Horizontal Tail – 20 sq ft, no strut

Large Horizontal Tail – 27 sq ft with strut

Small Tail Rotor – 10ft 4in diameter

Large Tail Rotor – 10ft, 7.25in diameter

Small Sponson – original to SH-3A, 2,200 lb displacement each

Large Sponson – used on S-61N, 3,200 lb displacement each

Long Sponson – same as small, extended aft to hold towed MAD or sonobuoys

Strut – fixed landing gear on S-61L

Stub Wing – S-61R retracts LG into sub wings on aft fuselage

TW – Tail Wheel

Tri - Tricycle

Propulsion Summary

|Military |Civil |Engine |Continuous HP per |Max HP per |MGB HP Limit |

| | | |Engine |Engine | |

|SH-3A |S-61A |T58-GE-8B |1,050 |1,250 |2,300 |

|VH-3A |S-61V |T58-GE-8B |1,050 |1,250 |2,300 |

|CH-3B |  |T58-GE-8B |1,050 |1,250 |2,300 |

|CH-3C |S-61R |T58-GE-5 |1,400 |1,500 |2,500 |

|SH-3D |S-61D |T58-GE-10 |1,250 |1,400 |2,500 |

|VH-3D |  |T58-GE-400 |1,400 |1,500 |2,500 |

|H/CH-3E |  |T58-GE-5 |1,400 |1,500 |2,500 |

|HH-3F |  |T58-GE-5 |1,400 |1,500 |2,500 |

|SH-3G |  |T58-GE-10 |1,250 |1,400 |2,500 |

|U/SH-3H |  |T58-GE-402 |1,400 |1,500 |2,500 |

|  |S-61L |CT58-110 |1,050 |1,250 |2,300 |

|  |S-61N |CT58-140 |1,400 |1,500 |2,500 |

|  |S-61T |CT58-140 |1,400 |1,500 |2,500 |

Definitions:

HP – Horse Power

MGB – Main Gear Box

Note on US Naval Aircraft Designations.

The first S61 model carried the US Navy designation HSS-2. H for helicopter, first S for antisubmarine, second S for Sikorsky, and -2 denoting the second model in the series, since the HSS-2 was preceded by the S-58 HSS-1. In 1962 Navy modified their designation pattern so that the HSS-2 became the SH-3, with S for antisubmarine and H for helicopter.

Additional Information Sources

Information on mid-20th-century anti-submarine warfare was obtained from: The Third Battle: Innovation in the U.S. Navy's Silent Cold War Struggle with Soviet Submarines, March 2000, by Owen Cote Jr., Director, MIT Security Studies Program, to whom the author is most grateful.

Color photos were obtained from the extensive Wikipedia files for the Sikorsky SH-3 Sea King, Sikorsky S-61R, Sikorsky VH-3, and Sikorsky S61L, for which the author is most grateful.

Prepared by Jim Bohan & Tom Lawrence

January 31, 2012

Updated to provide additional detail on the S-61L/N and S-61R models

Vinny Devine December 2013

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