Difference between revisions of "Milestones:Early Swiss Wireless Experiments, 1897"

 
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== Marconi's Early Wireless Experiments, 1895 ==
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{{Milestone box
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|Date Dedicated=2003/09/26
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|Dedication=46
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|Location=Switzerland
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|IEEE Regions=8
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|IEEE sections=Switzerland
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|Summary=At this location in 1897, with local assistance, a researcher carried out some of the first wireless experiments. He transmitted a signal from this 'Shepherdess Stone' over a few meters and later, following six weeks of careful adjustments, over a distance of up to one and a half kilometers.
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|Abstract=At this location in 1897, with local assistance, a researcher carried out some of the first wireless experiments. He transmitted a signal from this 'Shepherdess Stone' over a few meters and later, following six weeks of careful adjustments, over a distance of up to one and a half kilometers.
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|Special citation=No
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}}
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== Early Swiss Wireless Experiments, 1897 ==
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''At this location in 1897, with local assistance, a researcher carried out some of the first wireless experiments. He transmitted a signal from this 'Shepherdess Stone' over a few meters and later, following six weeks of careful adjustments, over a distance of up to one and a half kilometers.''
  
 
Salvan, Switzerland - 26 September 2003 - [[IEEE Switzerland Section History|IEEE Switzerland Section]]  
 
Salvan, Switzerland - 26 September 2003 - [[IEEE Switzerland Section History|IEEE Switzerland Section]]  
  
[[Image:Marconi's Early Wireless Experiments use this one for actual milestone page.jpg|thumb]]  
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[[Image:Early Wireless Experiments use this one for actual milestone page.jpg|thumb]]  
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'''The plaque can be viewed in the town of Salvan, Switzerland, attached to the famous Shepherdess Stone.'''
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Much of the information about this event was obtained in interviews some 70 years later, from the young assistant, Maurice Gay-Balmaz, who was 10 years old at the time of the experiment. Gay-Balmaz recalled working for a foreigner in 1897, when he was twelve years old, in all three interviews.  In 1975 the village of Salvan posted commemorative plaque dating the wireless research as taking place in 1896.  If listeners accepted Gay-Balmaz’s recollections, it should have read 1897.
  
''On this spot in 1895, with local assistance, [[Guglielmo Marconi]] carried out some of the first [[Wireless Telegraphy|wireless]] experiments. He first transmitted a signal from this "Shepherdess Stone" over a few meters and later, following one and a half months of careful adjustments, over a distance of up to one and a half kilometers.
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The village of Salvan, Switzerland was known in the last years of the 19th century as a health resort. Located in the southwest of Switzerland in the Swiss Alps, very close to the France border, it was accessible only by a narrow mule path, nicknamed "route de Mont".  
This was the beginning of Marconi´s pivotal involvement in wireless radio.''
 
  
'''The plaque can be viewed in the town of Salvan, Switzerland, attached to the famous Shepherdess Stone.'''
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Below is the summary of research so far on Gustav Engisch, a prospective candidate for the wireless experimenter in Salvan in the summer of 1897.  It appears that he may well have grown up in Berne Canton, a French-German corner of Switzerland about 100km north of Vevey on Lake Geneva.  The challenge is to find a photo or passport information that would indicate hair color and height.
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== Supporting Material ==
  
The village of Salvan, Switzerland was known in the last years of the 19th century as a health resort. Located in the southwest of Switzerland in the Swiss Alps, very close to the France border, it was accessible only by a narrow mule path, nicknamed "route de Mont". Marconi, at the age of 21, visited Salvan in the Summer of 1895. It was suggested that he visited the resort to treat a respiratory ailment.  
+
Based largely on Florian Hars, Ferdinand Braun (1850-1918): ein
 +
wilhelminischer Physiker (Berlin: Verlag für Geschichte der Naturwissenschaften und der Technik, 1999), p. 131-152, which uses archival documents from the Siemens and Stollwerck Chocolate Company archives. Research is continuing to learn more about Engisch.
  
Marconi's equipment consisted of a [[Batteries|battery]], a Ruhmkorff induction coil, a Righi spark generator and an antenna. His goal: transmit a signal without a metallic connection. He set up his experiments on Pierre Bergère (the Shepherdess Stone). Marconi was operating the transmitter, and a young assistant*, a resident of Salvan, began to move the receiver, which sounded a bell, farther away. First the distance was approximately four or five meters. The final distance in which the experiment worked was approximately one and a half kilometers. Each time the bell sounded the young assistant would hold up a red flag; when it did not he would hold up a white flag. (The accounts of the actual distance vary.) These experiments continued for several weeks.  
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Inspired by Marconi's experiments, Gustav Engisch, a young electrical engineer from
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Vevey, Switzerland, began to experiment with wireless technology in 1896. He sold his
 +
patent rights to Fritz Nies and Albert Gümbel of Strasbourg, who then sold half these rights to Albert Zobel and Joseph Schmitz-Schlagloth. Originally from Cologne, these two convinced Ludwig Stollwerck, a chocolate manufacturer in that city, to support further experiments by Engisch.
 +
Stollwerck had numerous interests in innovation that made him a useful contributor to Engisch’s wireless project. He had pioneered vending machines for his chocolates and produced machinery through the German Machines Company. He had also licensed consumer technologies from Thomas Edison since the early 1890s, including the phonograph and cinematograph in 1895-96.  The following year Stollwerck established the German Edison-Bell Phonograph Company; with the German-Austrian Edison Cinematograph Company, he also invested in the new medium of film.
 +
In the summer of 1897, the investors funded Engisch’s research in Vevey at the eastern end of Lake Geneva; Engisch had little success over several months of experiments. The following year Engisch demonstrated reliable communications up to 50 meters.  Before committing more funding, however, Zobel, Schmitz-Schlagloth, and Stollwerck wanted Engisch’s technology tested by an independent authority. Engisch brought his system to Strasbourg in the spring of 1898, where Nies and Zobel had hired Professor Karl-Ferdinand Braun of the University of Strasbourg as a consultant.  
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At the time, Braun shared with Wilhelm Röntgen a reputation as the first physicist in Germany.  Braun quickly realized that Engisch’s apparatus was an imperfect copy of Marconi’s, and further discussion with the young engineer was difficult. Moreover, Nies had stimulated Braun’s interest in wireless telegraphy. Abandoning Engisch, the investors requested Braun’s professional services. Braun accepted their offer to underwrite his wireless research, leaving Engisch to pursue what became an inductive wireless telegraphy system over the next ten years.
  
Marconi only spent a short time in Salvan, then returned to Italy. The following year he filed the original patent on his invention in London.  
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(Today Vevey is a 90-minute railroad ride from Salvan via Martigny; it is 42 minutes from Vevey to Vernayaz, where in 1897 one would have taken another train up the hills to Salvan.)
  
Much of this information was obtained some 70 years after the event, from the young assistant, Maurice Gay-Balmaz, who was 10 years old at the time of the experiment.
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After his investors abandoned him, Engisch continued to pursue his work, which included German patent 117415 for a grounded element for a lightning rod in February 1900, while he resided in Madretsch, a neighborhood of Biel in Berne Canton.  Engisch focused on inductive wireless communications--that is, through the earth.  In August 1904 he and the Deutsche-Erfinder Genossenschaft in Berlin registered two provisional patents, 17377 and 17378, in Great Britain for a “Wave Indicator for Wireless Electric Telegraphy” and “Improvements in Induction Apparatus.” (Electrical Engineer, 19 August 1904, p. 286)  He also founded a company, World Syndicate Engisch for Wireless Telephony and Telegraphy GmbH, to profit from his patented or unpatented inventions in the field, capitalized at 200,000 marks. (Der Mechaniker XII (1904), p. 189)  Engisch was residing in Biel when he and H. Stern of Berlin received German patent 174219 for a switching device to alternately charge and discharge multiple batteries in April 1905.
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Four years later, in 1908, Johannes Zacharias and Hermann Heinicke promoted Engisch’s approach in their Praktisches Handbuch der drahtlosen Telegraphie und Telephonie (Vienna and Leipzig, 1908), p. 213, 220-1.  No further record of Engisch’s wireless technology or related business is available. In 1910, still based in Berlin, he received U.S. Patents 973,929 and 949,420 for a reversible turbine and a toy airship, respectively.
  
<div class="header"><span class="head1">INNOVATION</span><span class="head2">  MAP</span></div>
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{{Milestone|GeoLoc=46.12164, 7.02161|Description=Salvan, Wallis, Switzerland. Dedication: 26 September 2003, IEEE Switzerland Section. At this location in 1897, with local assistance, a researcher carried out some of the first wireless experiments. He transmitted a signal from this 'Shepherdess Stone' over a few meters and later, following six weeks of careful adjustments, over a distance of up to one and a half kilometers.}}
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Marconi's Early Wireless Experiments, 1895
 
Salvan, Switzerland
 
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[[Category:Communications|{{PAGENAME}}]]
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[[Category:Communications]]
[[Category:Radio_communication|{{PAGENAME}}]]
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[[Category:Radio_communication]]
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[[Category:Wireless_telegraphy]]

Latest revision as of 19:09, 20 June 2016

Date Dedicated
2003/09/26
Dedication #
46
Location
Switzerland
IEEE Regions
8
IEEE sections
Switzerland
Achievement date range
1897

Early Swiss Wireless Experiments, 1897

At this location in 1897, with local assistance, a researcher carried out some of the first wireless experiments. He transmitted a signal from this 'Shepherdess Stone' over a few meters and later, following six weeks of careful adjustments, over a distance of up to one and a half kilometers.

Salvan, Switzerland - 26 September 2003 - IEEE Switzerland Section

Early Wireless Experiments use this one for actual milestone page.jpg

The plaque can be viewed in the town of Salvan, Switzerland, attached to the famous Shepherdess Stone.

Much of the information about this event was obtained in interviews some 70 years later, from the young assistant, Maurice Gay-Balmaz, who was 10 years old at the time of the experiment. Gay-Balmaz recalled working for a foreigner in 1897, when he was twelve years old, in all three interviews. In 1975 the village of Salvan posted commemorative plaque dating the wireless research as taking place in 1896. If listeners accepted Gay-Balmaz’s recollections, it should have read 1897.

The village of Salvan, Switzerland was known in the last years of the 19th century as a health resort. Located in the southwest of Switzerland in the Swiss Alps, very close to the France border, it was accessible only by a narrow mule path, nicknamed "route de Mont".

Below is the summary of research so far on Gustav Engisch, a prospective candidate for the wireless experimenter in Salvan in the summer of 1897. It appears that he may well have grown up in Berne Canton, a French-German corner of Switzerland about 100km north of Vevey on Lake Geneva. The challenge is to find a photo or passport information that would indicate hair color and height.

Supporting Material

Based largely on Florian Hars, Ferdinand Braun (1850-1918): ein wilhelminischer Physiker (Berlin: Verlag für Geschichte der Naturwissenschaften und der Technik, 1999), p. 131-152, which uses archival documents from the Siemens and Stollwerck Chocolate Company archives. Research is continuing to learn more about Engisch.

Inspired by Marconi's experiments, Gustav Engisch, a young electrical engineer from Vevey, Switzerland, began to experiment with wireless technology in 1896. He sold his patent rights to Fritz Nies and Albert Gümbel of Strasbourg, who then sold half these rights to Albert Zobel and Joseph Schmitz-Schlagloth. Originally from Cologne, these two convinced Ludwig Stollwerck, a chocolate manufacturer in that city, to support further experiments by Engisch. Stollwerck had numerous interests in innovation that made him a useful contributor to Engisch’s wireless project. He had pioneered vending machines for his chocolates and produced machinery through the German Machines Company. He had also licensed consumer technologies from Thomas Edison since the early 1890s, including the phonograph and cinematograph in 1895-96. The following year Stollwerck established the German Edison-Bell Phonograph Company; with the German-Austrian Edison Cinematograph Company, he also invested in the new medium of film. In the summer of 1897, the investors funded Engisch’s research in Vevey at the eastern end of Lake Geneva; Engisch had little success over several months of experiments. The following year Engisch demonstrated reliable communications up to 50 meters. Before committing more funding, however, Zobel, Schmitz-Schlagloth, and Stollwerck wanted Engisch’s technology tested by an independent authority. Engisch brought his system to Strasbourg in the spring of 1898, where Nies and Zobel had hired Professor Karl-Ferdinand Braun of the University of Strasbourg as a consultant. At the time, Braun shared with Wilhelm Röntgen a reputation as the first physicist in Germany. Braun quickly realized that Engisch’s apparatus was an imperfect copy of Marconi’s, and further discussion with the young engineer was difficult. Moreover, Nies had stimulated Braun’s interest in wireless telegraphy. Abandoning Engisch, the investors requested Braun’s professional services. Braun accepted their offer to underwrite his wireless research, leaving Engisch to pursue what became an inductive wireless telegraphy system over the next ten years.

(Today Vevey is a 90-minute railroad ride from Salvan via Martigny; it is 42 minutes from Vevey to Vernayaz, where in 1897 one would have taken another train up the hills to Salvan.)

After his investors abandoned him, Engisch continued to pursue his work, which included German patent 117415 for a grounded element for a lightning rod in February 1900, while he resided in Madretsch, a neighborhood of Biel in Berne Canton. Engisch focused on inductive wireless communications--that is, through the earth. In August 1904 he and the Deutsche-Erfinder Genossenschaft in Berlin registered two provisional patents, 17377 and 17378, in Great Britain for a “Wave Indicator for Wireless Electric Telegraphy” and “Improvements in Induction Apparatus.” (Electrical Engineer, 19 August 1904, p. 286) He also founded a company, World Syndicate Engisch for Wireless Telephony and Telegraphy GmbH, to profit from his patented or unpatented inventions in the field, capitalized at 200,000 marks. (Der Mechaniker XII (1904), p. 189) Engisch was residing in Biel when he and H. Stern of Berlin received German patent 174219 for a switching device to alternately charge and discharge multiple batteries in April 1905. Four years later, in 1908, Johannes Zacharias and Hermann Heinicke promoted Engisch’s approach in their Praktisches Handbuch der drahtlosen Telegraphie und Telephonie (Vienna and Leipzig, 1908), p. 213, 220-1. No further record of Engisch’s wireless technology or related business is available. In 1910, still based in Berlin, he received U.S. Patents 973,929 and 949,420 for a reversible turbine and a toy airship, respectively.


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