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Company Information |
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In the late 1920’s, Dr. Gerhard Fisher, a
German immigrant who studied electronics at the University of
Dresden, obtained the first patent ever issued on aircraft radio
direction finders. He was working as a Research Engineer in
Los Angeles, California at the time and his work attracted the
interest of Dr. Albert Einstein. After a demonstration of Dr.
Fisher’s equipment, Einstein enthusiastically and correctly
predicted the world-wide use of radio direction finders in the
air, on land and at sea. |
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When using such direction finders during those
early years, aircraft pilots found that errors would occur in
their bearings when metal objects came between the transmitter
and receiver, or whenever they passed over certain areas. Different
pilots flying different planes always observed the same errors
over the same places. When Dr. Fisher investigated this phenomenon,
he found these errors to be the result of highly conductive,
mineralized areas. Dr. Fisher concluded that a portable electronic
prospecting instrument could be developed that used the same
principle to detect the presence of small buried objects and
ore deposits. |
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He continued his research into this phenomenon,
and in 1931 he founded Fisher Research Laboratory in a garage
behind his home at 1505 Byron St. in Palo Alto, California.
He and four employees began producing the "Metallascope,"
starting each unit as a new order came in. The "Metallascope"
was a rugged, easy-to-use metal detector. By today’s standards,
it was perhaps an ungainly device: two large, flat wooden boxes
containing simple copper coils, five vacuum tubes, and a few
assorted components. It soon captivated the imagination of the
country, and within a short time, the world. |
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USS MACON CRITICAL TOOL FOR DR. FISHER Around
1933, the U.S. Navy hired Dr. Fisher to install a radio direction
finder aboard the dirigible, the USS Macon. The massive air
ship is shown here mooring inside of historic Hangar One at
NAS in Sunnyvale, California (formerly Moffett Field). It was
aboard the Macon that Dr. Fisher discovered that large metal
buildings and mineralized mountains cancelled out the instrument’s
direction finding capabilties leading him to the discovery of
the first metal detector. Dirigibles served the U.S. Navy as
floating bases for scout planes during the 1930’s, but
the program was eventually abandoned. It became obvious that
the highly touted U.S. Navy lighter-than-air program had a fatal
flaw: dirigibles had a tendency to crash during severe weather.
(Official U.S. Navy Photo) |
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By 1936, sales had increased to the point where
the garage was no longer large enough. Fisher Research Laboratory
moved to a small building at 745 Emerson St. in Palo Alto. Shortly
thereafter, Dr. Fisher was granted a patent for his "Metallascope."
The "Metallascope" was soon nicknamed the M-Scope,
and as such, became an accepted standard for all types of electronic
metal detection: geologists located ore, treasure hunters found
treasure, utility companies located buried pipes, lumber mills
located metal inclusions in sawn logs, and law enforcement agencies
used it to locate abandoned or hidden weapons. |
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In 1939, just prior to World War II, Fisher moved
to an even larger building at 1961 University Ave. in Palo Alto.
During World War II and the subsequent Korean Conflict, the
company was called upon to contribute its technical competence
to the war effort, but the M-Scope business was never neglected.
With the increasing popularity of the M-Scope, and with Fisher’s
patent rights expiring, numerous competitors began producing
similar equipment. Due to relentless efforts to incorporate
every available technical advancement - and in particular, by
keeping close contact with countless users to utilize their
vast fund of field experience in the design of new models -
Fisher maintained its position of solid leadership. Over the
years, Fisher has designed and produced such sophisticated products
as geiger counters, radio communication systems, voltage detectors
and cable fault locators. |
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In 1961, Fisher moved to an even larger production
facility in Belmont, California. In 1967, Dr. Fisher retired,
having firmly established his name in the annals of electronic
history. The company continued to grow, and in 1974, Fisher
Research Laboratory moved 90 miles southeast to Los Banos, California. In 1990, Fisher built a spacious, modern manufacturing plant in the Los Banos Industrial Park, where the world's oldest metal detector business resided until it was acquired by First Texas Products in 2006. |
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