Hughes Aircraft Company

Hughes Aircraft Company
Industry Aerospace and defense
(Defense and Communications Electronics)
Fate sold to Raytheon
Founded 1932 in Glendale, CA
Founder Howard Hughes
Headquarters Culver City, El Segundo and Westchester, United States
Revenue $11B peak, 1986
Owner Hughes Tool Company (1932)
Howard Hughes Medical Institute (1953)
General Motors Corp (1985)
Number of employees
84,000 peak, 1985

The Hughes Aircraft Company was a major American aerospace and defense contractor founded in 1932 by Howard Hughes in Glendale, California[1] as a division of Hughes Tool Company. The company was known for producing, among other products, the Hughes H-4 Hercules "Spruce Goose" aircraft, the atmospheric entry probe carried by the Galileo spacecraft, and the AIM-4 Falcon guided missile.[2][3]

It was acquired by General Motors from the Howard Hughes Medical Institute in 1985. Hughes Aircraft was put under the umbrella of Hughes Electronics, now known as DirecTV, until GM sold its assets to Raytheon in 1997.[4][5]

History

Hughes logo, adopted after the death of its founder
Hughes Galileo probe being deployed.
Hughes-built NASA Surveyor lunar lander.
Hughes developed the AIM-120 AMRAAM, one of the world's most advanced air-to-air missiles.

During World War II the company designed and built several prototype aircraft at Hughes Airport. These included the famous Hughes H-4 Hercules, better known by the public's nickname for it, the "Spruce Goose", the H-1 racer, D-2 and the XF-11.[6] However the plant's hangars at Hughes Airport, location of present-day Playa Vista in the Westside of Los Angeles, California, were primarily used as a branch plant for the construction of other companies' designs. At the start of the war Hughes Aircraft had only four full-time employees—by the end the number was 80,000.[7][8]

Post–World War II

Hughes Aircraft was one of many aerospace and defense companies which flourished in Southern California during and after World War II and was at one time the largest employer in the area.

By the summer of 1947 certain politicians had become concerned about Hughes' alleged mismanagement of the Spruce Goose and the XF-11 photo reconnaissance plane project. They formed a special committee to investigate Hughes which culminated in a much-followed Senate investigation, one of the first to be televised to the public. Despite a highly critical committee report, Hughes was cleared.

In 1948 Hughes created a new division of the company, the Aerospace Group. Two Hughes engineers, Simon Ramo and Dean Wooldridge, had new ideas on the packaging of electronics to make complete fire control systems. Their MA-1 system combined signals from the aircraft's radar with a digital computer to automatically guide the interceptor aircraft into the proper position for firing missiles. At the same time other teams were working with the newly formed US Air Force on air-to-air missiles, delivering the AIM-4 Falcon, then known as the F-98. The MA-1/Falcon package, with several upgrades, was the primary interceptor weapon system of the USAF for many years, lasting into the 1980s. Ramo and Wooldridge, having failed to reach an agreement with Howard Hughes regarding management problems, resigned in September 1953 and founded the Ramo-Wooldridge Corporation, later to join Thompson Products to form the Thompson-Ramo-Wooldridge based in Canoga Park, with Hughes leasing space for nuclear research programs (present day West Hills (Canoga Park).[9] The company became TRW in 1965, another aerospace company and a major competitor to Hughes Aircraft.

In 1951 Hughes Aircraft Co. built a missile plant in Tucson, Arizona. The construction of this plant, wrote David Leighton, in the Arizona Daily Star newspaper, was due to "Howard Hughes’ long-held fear that his plant in Culver City, California, was vulnerable to enemy attack because it was on the Pacific Coast." By the end of that year, the U.S. Air Force had purchased the property but allowed the company to continue to run day to day operations of the site. This Tucson plant is still in operation under the ownership of Raytheon Co.[10]

Howard Hughes donated Hughes Aircraft to the newly formed Howard Hughes Medical Institute (HHMI) in 1953 allegedly as a way of avoiding taxes on its huge income.[11] The next year, L.A. "Pat" Hyland was hired as vice president and general manager of Hughes Aircraft; he would ultimately become company president and CEO after Howard Hughes' death in 1976.

Under Hyland's guidance, the Aerospace Group continued to diversify and become massively profitable, and became a primary focus of the company. The company developed radar systems, electro-optical systems, the first working laser, aircraft computer systems, missile systems, ion-propulsion engines (for space travel), and many other advanced technologies. The 'Electronic Properties Information Center' (EPIC) of the United States was hosted at the Hughes Culver City library in the 1970s. EPIC published the multi-volume Handbook of Electronic Materials as public documents.[12]

Nobel Laureates Richard Feynman and Murray Gell-Mann had Hughes connections: Feynman would hold weekly seminars at Hughes Research Laboratories; Gell-Mann shared an office with Malcolm Currie, later a Chairman of the Board and Chief Executive Officer at Hughes Aircraft. Greg Jarvis and Ronald McNair, two of the astronauts on the last flight of the Space Shuttle Challenger were Hughes alumni.

Ground Systems Group

Hughes Aircraft Ground Systems Group was located in Fullerton, California. The facility was 3 million square feet and included manufacturing, laboratories, offices, and a Munson road test course. It designed developed and produced the Air Defense Systems that replaced the Semi Automatic Defense Ground Environment (SAGE) in the United States with the Joint Surveillance System (JSS) AN/FYQ-93 including NORAD with Joint Tactical Information Distribution System (JTIDS) and provided defense systems and air traffic control systems around the world. These systems are massive and at its peak Ground Systems Group employed 15,000 people and generated revenue in excess of $1 billion per year. They were the largest revenue producer and with its massive systems engineering division coordinated the inclusion of products and systems from other Hughes Groups into the large system solutions.

These systems included the following Ground Systems Group subsystems: Computer H5118, Consoles HMD-22 and HMD-44, Liquid Crystal Large Screen Displays, and Software that set the standard for software development[13] based on science and engineering starting with the Combat Grande System. Ground Systems Group was known to push technology envelopes in the computers, displays, local area networks, human interfaces, and software in their systems. They also blazed the path to very highly distributed human intensive systems.

Hughes Space and Communications Group

Hughes Space and Communications Group and the Hughes Space Systems Division built the world's first geosynchronous communications satellite, Syncom, in 1963 and followed it closely with the first geosynchronous weather satellite, ATS-1, in 1966. Later that year their Surveyor 1 made the first soft landing on the Moon as part of the lead-up to the moon landings in Project Apollo. Hughes also built Pioneer Venus in 1978, which performed the first extensive radar mapping of Venus, and the Galileo probe that flew to Jupiter in the 1990s.[7] The company built nearly 40 percent of commercial satellites in service worldwide in 2000.[14]

Hughes helicopter business

Main article: Hughes Helicopters

In 1947, Howard Hughes redirected Hughes Aircraft's efforts from airplanes to helicopters. The effort began in earnest in 1948, when helicopter manufacturer Kellett Aircraft Co. sold its latest design to Hughes for production. The XH-17 "Sky Crane" first flew in October 1952, but was commercially unsuccessful. In 1955, Howard Hughes split the helicopter production unit from the Hughes Aircraft Company, and reconstituted it with Hughes Tool Company, calling it Hughes Tool Company's Aircraft Division. The Aircraft Division had a focus on the production of light helicopters, mainly the Hughes 269/300 and the OH-6 Cayuse/Hughes 500.

Howard Hughes Medical Institute sells Hughes Aircraft Company

Hughes left no will and following his death in 1976 there were numerous claims to his estate. A Hughes executive and a Hughes lawyer claimed they had the right to set up an "executive committee" to take over the running of the HHMI and its Hughes Aircraft subsidiary. The Attorney General of Delaware Richard R. Wier challenged this and filed suit in 1978. Charles M. Oberly continued the action when he became attorney general in 1983. Oberly stated he wished to see an independent board of trustees to ensure both that the institute fulfilled its charitable mission and that it did not continue to operate as a tax shelter.[15]

In January 1984 Judge Grover C. Brown ruled that the Chancery Court should appoint the trustees because Hughes had not left a succession plan. Brown asked for both the executive committee and the attorney general’s office to submit a list of recommendations that he could approve. Brown approved a list in April 1984.[15] In January 1985 the new board of trustees of the HHMI announced they would sell Hughes Aircraft either by private sale or public stock offering.[16]

Hughes Electronics Corporation

Hughes logo, adopted after its new owner General Motors
Mock-up display of a Hughes satellite booster inside the Space Shuttle Explorer (similar to the one carried on STS-49)

On June 5, 1985 General Motors was announced as the winner of a secretive five month, sealed-bid auction. Other bidders included Ford Motor Company and Boeing.[17] The purchase was completed on December 20, 1985 for an estimated $5.2 billion, $2.7 billion in cash and the rest in 50 million shares of GM Class H stock.[18]

On December 31, 1985 General Motors merged Hughes Aircraft with its Delco Electronics unit to form Hughes Electronics Corporation, an independent subsidiary. The group then consisted of: Delco Electronics Corporation and Hughes Aircraft Company.

In August of 1992 Hughes Aircraft completed its purchase of General Dynamics' missile businesses for $450 million.[19] This brought the Tomahawk Cruise Missile, Advanced Cruise Missile, Standard missile, Stinger missile, the Phalanx Close-in weapon system and the Rolling Airframe Missile into Hughes' portfolio.

In 1994 Hughes Electronics introduced DirecTV, the world's first high-powered DBS service. In 1995 Hughes Electronic's Hughes Space and Communications division became the largest supplier of commercial satellites. Also in 1995 the group purchased Magnavox Electronic Systems from the Carlyle Group. In 1996 Hughes Electronics and PanAmSat agree to merge their fixed satellite services into a new publicly held company, also called PanAmSat with Hughes Electronics as majority shareholder.

In 1995, Hughes Aircraft sold its Technology Products Division (automated wire and die bonder) to an investor group led by Citicorp and incorporated the division as Palomar Technologies. In 2008, Citicorp sold the bonder division to the current management team at Palomar Technologies.[20]

In 1997 GM transferred Delco Electronics to its Delphi Automotive Systems business. Later that year the assets of Hughes Aircraft were sold to Raytheon for $9.5 billion.[21] The remaining companies remained under the Hughes Electronics name and within GM.

In 2000, The Boeing Company purchased three units within Hughes Electronics Corp.: Hughes Space and Communications Co., Hughes Electron Dynamics, and Spectrolab Inc., in addition to Hughes Electronics' interest in HRL, the company's primary research laboratory. The four joined Boeing Satellite Systems, a company subsidiary, later becoming the Satellite Development Center, part of Boeing Integrated Defense Systems.[22]

In 2003 the remaining parts of Hughes Electronics: DirecTV, DirecTV Latin America, PanAmSat and Hughes Network Systems were purchased by News Corporation from GM and renamed The DirecTV Group.

Corporate legacy

The wide range of science and technology developed by Hughes Aircraft never included medical applications because the company was owned by the Howard Hughes Medical Institute (HHMI). This restriction was imposed to avoid even the appearance of a conflict of interest.[23]

However the money provided to HHMI by Hughes Aircraft led to major improvements to the medical field from genetics, cancer research, to producing doctors who provide care to millions of people. It is important to note that Hughes developed the modern medical bed as a direct result of his hospital internment.

Timeline

Hughes logo, adopted during the period (1997-2000) between the sales of portions of the company to Raytheon and Boeing. Each subsidiary of Hughes Space and Communications Company placed their name at the bottom of the logo.

Products

Air Defense and Air Traffic Control Systems

Aircraft

Missiles

Spacecraft

References

  1. Hughes built his H-1 racer in a hangar at the Grand Central Air Terminal in Glendale, California. By July, 1941 Hughes Aircraft had relocated its flight line to Culver City, California, in the Playa del Rey wetlands alongside Ballona Creek.
  2. http://www.centennialofflight.net/essay/Aerospace/Hughes/Aero44.htm
  3. Parker, Dana T. Building Victory: Aircraft Manufacturing in the Los Angeles Area in World War II, pp. 49–58, Cypress, CA, 2013.
  4. http://www.britannica.com/EBchecked/topic/850245/Hughes-Electronics-Corporation
  5. Parker, Dana T. Building Victory: Aircraft Manufacturing in the Los Angeles Area in World War II, p. 49, Cypress, CA, 2013.
  6. http://aerofiles.com/_h.html
  7. 1 2 Judy, Rumerman. "The Hughes Companies". U.S. Centennial of Flight Commission. Retrieved 2006-12-06.
  8. Parker, Dana T. Building Victory: Aircraft Manufacturing in the Los Angeles Area in World War II, pp. 49-58, Cypress, CA, 2013.
  9. TRW Canoga Park
  10. Leighton, David (2015-05-05). "Street Smarts: Tucson's biggest manufacturing plant was almost built in Phoenix". Arizona Daily Star (Lee Enterprises.). p. 1. Retrieved 2015-05-05.
  11. "Virginia lab putting big money into pure research". The Wall Street Journal (Associated Press Financial Wire). 2006-09-22. Retrieved 2014-04-30. |first1= missing |last1= in Authors list (help)
  12. The Electronic Properties Information Center (EPIC)
  13. TECHNICAL REPORT CMU/SEI-98-TR-006 ESC-TR-98-006 Hughes Aircraft’s Widespread Deployment of a Continuously Improving Software Process
  14. Boeing: Integrated Defense Systems - Space and Intelligence Systems - About Space and Intelligence Systems
  15. 1 2 Griffith, Ted (2005-02-12). "Delaware shaped legacy of 'Aviator'; Court helped Howard Hughes tax shelter become leading charity". The News Journal. p. 1.
  16. Gillot, Roger (1985-01-10). "Medical Institute to Sell Hughes Aircraft". The Associated Press.
  17. Potts, Mark (1985-06-06). "GM to Buy Hughes Aircraft; Offer Provides Windfall for Medical Institute". Washington Post (The Washington Post).
  18. Reuters (1985-12-23). "G.M. Purchase Of Hughes". The New York Times (The New York Times Company). Retrieved 2014-04-30.
  19. "Missile completion". Flight International (Reed Business Publishing). 1992-09-02.
  20. Palomar Technologies Achieves Management Buy-out
  21. Chuter, Andy (1998-01-07). "Raytheon Completes Hughes Merger". Flight International (Reed Business Information Ltd.). p. 15. Retrieved 2014-04-30.
  22. http://www.boeing.com/history/narrative/n092hug.html Hughes Companies... Joining the Boeing Family
  23. HughesNews (the company's weekly newspaper)

Further reading

External links

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