Harald T. Friis

Harald Trap Friis
Born 1893
Næstved, Zealand, Denmark
Died June 15, 1976
Palo Alto, California, United States
Residence United States
Nationality American
Fields Electrical engineering
Alma mater
Notable awards

Harald Trap Friis (February 22, 1893 - June 15, 1976), who published as H. T. Friis, was a noted Danish-American radio engineer whose work at Bell Laboratories included pioneering contributions to radio propagation, radio astronomy, and radar.[1] His two Friis formulas remain widely used.[2]

Background

Friis was born in Næstved, Denmark.[1] In 1916 received his electrical engineering degree from the Technical University of Denmark. After a stint at the Royal Gun Factory, in 1919 he received a Columbia University fellowship to study radio engineering under John H. Morecroft. In 1920 Friis joined a Western Electric Company research group which in 1925 became part of Bell Laboratories. There he remained for his entire professional career. [3]

Career

Friis' first important publications were his 1923 Institute of Radio Engineers (IRE) paper on radio transmission measurements, 1925 IRE paper on directional antennas, and 1928 IRE paper on oscillographic observations of propagation phenomena. These papers documented studies of field strength and noise over a wide range of frequencies and stressed the importance of the signal to noise ratio (SNR) in receivers rather than simple field strength.

During the early 1930s Friis helped design the radio receiver used by Karl Jansky for radio astronomy, and with Edmond Bruce invented the rhombic antenna widely used for shortwave communications. In 1938 Friis became the director of the Holmdel Radio Laboratory developing microwave systems, where he and Alfred C. Beck designed the horn reflector antenna, which was widely used in AT&T's national microwave relay network in the 1960s. During World War II, Friis invented a "rocking horse" mechanical scanner for radar used to locate enemy mortars. He also authorized research into the first germanium diodes (Teal, 1942).[4]

In 1946 Friis published his well-known analytic formula for transmission loss, the Friis transmission equation, which is still widely employed. In 1958 he retired but continued as a research consultant to the Hewlett-Packard Company as a friend of David Packard. He held 31 U.S. patents.

Friis died on June 15, 1976, at age 83, of a stroke in Palo Alto, California.[1]

Awards

Friis received the IRE Morris N. Liebmann Award in 1939, the IRE Medal of Honor (now the IEEE Medal of Honor) in 1955, the Valdemar Poulsen Gold Medal of the The Danish Academy of Technical Sciences in 1956, the Stuart Ballantine Medal from the Franklin Institute in 1958 and the Mervin Kelly Award of the IEEE in 1964.[5]

Selected works

Work papers

The papers of Harald Trap Friis span the years 1921-1976. These documents are available to the public and are maintained at the Manuscript Division, Library of Congress, Washington, D.C.[6]

References

  1. 1 2 3 "Died.". Time (magazine). June 28, 1976. Retrieved 2008-04-28. Harald T. Friis, 83, radio-communications pioneer whose work helped make possible, among other things, modern radio reception and microwave transmission; of a stroke; in Palo Alto, Calif. Born in Denmark, Friis became a leading research scientist with the Bell System, eventually holding 25 patents, including one for the famous horn-reflector antenna of microwave systems first used in satellite communication. Highly regarded as a teacher of other scientists, Friis also supervised the work of the late Karl Jansky, founder of radio astronomy.
  2. Harald Trap Friis (IEEE History Center biography) Retrieved March 10, 2016
  3. Pierce, John Robinson (1957). The Wisdom of Harald Friis.
  4. Harald T. Friis (1893-1976 (Library of Congress) Retrieved March 10, 2016
  5. "H. T. Friis, 1955, Spectrum of radio frequencies, leadership". IRE Medal of Honor Winners 1917-1963. Retrieved March 10, 2016.
  6. Harald T. Friis papers, 1921-1976 (Manuscript Division, Library of Congress, Washington, D.C.) Retrieved March 10, 2016


Other sources


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