Age, Biography and Wiki
Harold Rosen (electrical engineer) (Harold Allen Rosen) was born on 20 March, 1926 in New Orleans, Louisiana, U.S., is an American electrical engineer. Discover Harold Rosen (electrical engineer)'s Biography, Age, Height, Physical Stats, Dating/Affairs, Family and career updates. Learn How rich is he in this year and how he spends money? Also learn how he earned most of networth at the age of 91 years old?
Popular As |
Harold Allen Rosen |
Occupation |
Electrical engineer |
Age |
91 years old |
Zodiac Sign |
Pisces |
Born |
20 March, 1926 |
Birthday |
20 March |
Birthplace |
New Orleans, Louisiana, U.S. |
Date of death |
2017 |
Died Place |
Pacific Palisades, Los Angeles, California, U.S. |
Nationality |
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We recommend you to check the complete list of Famous People born on 20 March.
He is a member of famous engineer with the age 91 years old group.
Harold Rosen (electrical engineer) Height, Weight & Measurements
At 91 years old, Harold Rosen (electrical engineer) height not available right now. We will update Harold Rosen (electrical engineer)'s Height, weight, Body Measurements, Eye Color, Hair Color, Shoe & Dress size soon as possible.
Physical Status |
Height |
Not Available |
Weight |
Not Available |
Body Measurements |
Not Available |
Eye Color |
Not Available |
Hair Color |
Not Available |
Dating & Relationship status
He is currently single. He is not dating anyone. We don't have much information about He's past relationship and any previous engaged. According to our Database, He has no children.
Family |
Parents |
Not Available |
Wife |
Not Available |
Sibling |
Not Available |
Children |
Not Available |
Harold Rosen (electrical engineer) Net Worth
His net worth has been growing significantly in 2023-2024. So, how much is Harold Rosen (electrical engineer) worth at the age of 91 years old? Harold Rosen (electrical engineer)’s income source is mostly from being a successful engineer. He is from . We have estimated Harold Rosen (electrical engineer)'s net worth, money, salary, income, and assets.
Net Worth in 2024 |
$1 Million - $5 Million |
Salary in 2024 |
Under Review |
Net Worth in 2023 |
Pending |
Salary in 2023 |
Under Review |
House |
Not Available |
Cars |
Not Available |
Source of Income |
engineer |
Harold Rosen (electrical engineer) Social Network
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Timeline
Dr. Harold Allen Rosen (20 March 1926 – 30 January 2017 ) was an American electrical engineer, known as "the father of the geostationary satellite", and "father of the communications satellite".
He formed and led the team that designed and built the first geosynchronous communications satellite, Syncom, for Hughes Aircraft Company.
Harold Allen Rosen was born on March 20, 1926, in New Orleans, Louisiana.
He served as a radio communication and radar technician in the U.S. Navy during World War II, from 1944 to 1946.
His experiences in the Navy provided him with hands-on experience with radio communications and the then-new field of radars.
At the time, Rosen was unaware of science writer Arthur C. Clarke's 1945 description of a geosynchronous satellite, but he was aware of the conventional wisdom regarding geostationary satellites, expressed most stridently by the highly regarded Bell Labs, at that time the world's leading communications R&D entity, in a March 1959 IRE Journal titled “Transoceanic Communications Via Satellites,” written by John Pierce and Rudy Kompfner.
They expressed the view that geostationary satellites would be too heavy to be launched by the rockets that were then available.
And, even if geostationary satellites could be launched, their presumed complexity would prevent them from having a long enough lifetime to be commercially viable.
Rosen, in reading their paper, felt otherwise.
He reasoned that since Bell Labs designed communication equipment for ground applications, it had little incentive for keeping the weight down.
Also, he was confident that his previous experience in guided missile design was more relevant for designing the control system for such a satellite and that the supposedly-complex control system the authors claimed would be necessary would not be needed.
Rosen had an epiphany when it occurred to him that if he used spin-phased impulses on a spin-stabilized satellite, he could have a simple, long-lived control system to go along with the satellite's lightweight electronics.
He gathered a small team of gifted colleagues (most notably, Don Williams, Tom Hudspeth and John Mendel) to convert the concept into a design for a practical geostationary communication satellite system.
The spin stabilized satellite itself weighed only 55 pounds.
When his superiors initially refused to fund the project, Rosen began talking to his contacts at Raytheon; rather than lose him to his previous employer, Hughes' management agreed to support prototype development.
He subsequently convinced the U.S. government to fund the Syncom program, a flight program that was based on the Hughes prototype.
He graduated from Tulane University in New Orleans in 1947 with a Bachelor of Engineering degree in electrical engineering.
He received an M.S. and a PhD in electrical engineering in 1948 and 1951 respectively from the California Institute of Technology in Pasadena.
While still in graduate school, he began working for Raytheon, where he helped develop early anti-aircraft guided missiles, making many innovations in the fields of radar and missile guidance and control.
After joining the Hughes Aircraft Company in 1956, and while he was working on the development of airborne radars, the world was catapulted into the space age by the 1957 launch of Sputnik, the world's first artificial satellite.
At the same time, his department's most important program was cancelled.
His boss, Frank Carver, challenged him to find a worthwhile new project that could keep the skilled staff gainfully employed.
Stimulated by the possibilities of the new Space Age, Rosen wanted it to be some kind of space program.
Because at that time international telephony was very expensive and hard to arrange, and transoceanic television was impossible, he decided it should be some kind of communication satellite since these problems could be solved that way.
He began to research what kind of communication satellite system would work best for this purpose.
After a discouraging rocket failure that doomed Syncom I in February 1963, Syncom II was successfully launched in August 1963.
It was followed by Syncom III in 1964, in time to relay live television signals from Tokyo during the Summer Olympics.
The first commercial satellite, Early Bird, was launched in 1965.
With communication satellites a commercial reality, Hughes formed a division to pursue this as a business, and Rosen became its technical director.
He later became a vice president of Hughes and a member of its policy board in 1975.
In these roles he was key in helping to build the world's largest communications satellite business at Hughes Aircraft Company.
Upon his retirement from Hughes in 1992, he joined with his brother Benjamin in another development project.
In 1993 Harold Rosen and his brother Benjamin founded Rosen Motors in Woodland Hills, California.
They developed a gas turbine-powered series hybrid automotive powertrain using a 55,000 rpm flywheel energy storage subsystem to provide bursts of acceleration to augment the turbine's more steady power output.
The flywheel also stored energy through regenerative braking.
The flywheel was composed of a titanium hub with a carbon fiber cylinder and was gimbal mounted to minimize adverse gyroscopic effects on vehicle handling.
The prototype vehicle was a Saturn, modified to accept the new engine/flywheel unit.
It was successfully road tested in the Mojave Desert in January 1997 but was never mass-produced, when the automakers to whom it was demonstrated chose not to go with the flywheel technology.
The company was dissolved in November 1997.
Their sister company, Capstone Turbine Corporation (Tarzana, Los Angeles) received the company's technology and continued to develop and market it after 1997.