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Robert von Lieben

March 03, 2023

Robert von Lieben (September 5, 1878, in Vienna – February 20, 1913, in Vienna) was an Austrian entrepreneur, and self-taught[1] physicist and inventor. Lieben and his associates Eugen Reisz and Siegmund Strauss invented and produced a gas-filled triode – the first thermionic valve with a control grid that was designed specifically for amplification rather than demodulation of signals, and is a distant ancestor of the thyratron.[2][3] After Lieben's death, the "Lieben valve", which is also known in English as the "Lieben-Reisz valve"[1] and in German as the "LRS-Relais"[4] (Lieben-Reisz-Strauss relay), was used in the world's first continuous wave radio frequency generator designed for radio telephony.[2]

Biography

Robert von Lieben was the fourth of five children born into a wealthy Viennese Jewish family who were related to the Auspitz, Gomperz, Todesco and Wertheimstein clans.[5] His father Leopold von[6] Lieben managed a family-owned bank and chaired the Vienna Trade Chamber; his mother Anna, nee Todesco, younger daughter of Eduard von Todesco, was a talented amateur artist and poet.[7] Well before Robert was born,[8] Anna von Lieben suffered from chronic insomnia, drug addiction and various mental conditions.[9] She was the first long-term patient of Sigmund Freud, who later described her under the alias of Cäcilie M.[9] Robert's parents de facto separated in the 1890s.[10]

Robert and his siblings grew up in Todesco Palace and from 1888, the Lieben Palace in Oppolzergasse near the Burgtheater and the University of Vienna.[11] They were raised in the old-fashioned, upper-class Ringstrasse culture,[12] and were exposed to science and philosophy by their home tutor Edmund Husserl and their distinguished relatives Rudolf Auspitz, Adolf Lieben and Franz Brentano – the latter being a daily visitor at the Lieben Palace during Robert's teenage years).[13]

Robert attended an academic gymnasium and a Realschule, and was not considered an outstanding student.[10] He leaned to technology and applied research, and spent all of his spare time with brother Ernst and cousin Leo doing experiments.[10] His interests were primarily in the fields of telephony and electricity but he was open to new ideas.[14] Robert left the school without an abitur, which was required to enrol at the University of Vienna, and instead became an apprentice at the Siemens-Schuckert factory in Nuremberg.[15] Having learnt the basics of technology, Robert joined the military and volunteered with the uhlan regiment of the Austro-Hungarian Army.[15] His career ended abruptly a few weeks later after he fell from a horse and was crippled.[15] He never fully recovered from the injuries, which probably contributed to his early death at the age of 34.[15]

After his discharge from the Army, Lieben attended Franz S. Exner's classes at the University of Vienna as an audit student; he also attended Walther Nernst's classes at the University of Göttingen,[15][16] and developed a long-standing friendship with Nernst.[15][17] During his two years at Göttingen,[18] Lieben designed a camera for photographing the retina of the eye, an electrolytic phonograph and an electric transmission for vehicles.[15]

In 1901, Lieben returned to Vienna and set up his own research laboratory in the ground floor of the Lieben Palace.[19][19][4] With the help of University chemist Dr. Richard Leiser, he studied X-rays, electric discharge in gases and thermionic emission.[19][4] In 1903, Lieben purchased a telephone equipment factory in Olomouc; telephony became his main field of work.[19] Factory engineers Eugen Reisz and Siegmund Strauss assisted Lieben at the laboratory, and Leiser was his main scientific advisor until 1909.[19][4]

The Lieben-Reisz-Strauss valve

 
The 1910 Lieben-Reisz-Strauss valve. The perforated disk at the "waistline" is the control grid

The losses in copper telephone lines limited telephone services to between 300 km (190 mi) and 750 km (470 mi).[20] Communication over longer ranges required the use of repeaters; the only type available in the 1900s was the mechanical amplifier that was built around a carbon microphone.[20] These high-distortion devices were adequate for telegraphy but were almost unusable for transmission of speech.[20] Lieben decided to make a low-distortion electronic amplifier using the already-known cathode ray tube principle to control the flow of current with a weak input signal.[4] Through his correspondence with Nernst, he knew of Arthur Wehnelt's 1903[21] invention of the oxide-coated cathode that enabled fairly strong thermionic emission compared to the inefficient pure tungsten cathode.[4] At first, Lieben tried to control the current electromagnetically using a deflection coil.[4] In 1906, he patented the electromagnetically-controlled "cathode ray relay"; although Lieben privately acknowledged the importance of Leiser's contribution, the patent[22] was issued to Lieben alone.[4] The device did not work as intended[4] because the proposed cathode configuration could not focus the electron beam into a satisfactory shape.[4]

Feeling no real incentive to run the business,[19] in 1908, Lieben sold the Olomouc factory. Reisz and Strauss remained on his personal payroll and continued research into "cathode relays".[4] According to correspondence from Lieben to Leiser, Reisz suggested the breakthrough improvement in early 1910,[4] and later that year, the new, properly working valve was patented jointly by Lieben, Reisz and Strauss.[23] It had electrostatic beam control via a perforated metal plate as a control grid that separated the valve into two chambers.[4][23] The cathode was made of pure platinum foil that was coiled in a zigzag fashion around calcium oxide-coated tube.[2] Functionally, the three electrodes were similar to those of Lee de Forest's audion but their layout was distinctly different.[2] Unlike the audion, which was intended for demodulation of radio signals, the Lieben valve was designed for amplification. De Forest noted the audion's sensitivity but did not make the conclusion it could amplify signals; this discovery was made almost simultaneously by Lieben and Edwin Howard Armstrong.[24]

By design, the Lieben valve was a low-vacuum valve with added features of a gas discharge tube, making it a remote ancestor of the thyratron.[2] The valve contained a drop of mercury that vaporized when heated.[2] Production tubes made between 1914 and 1918 had a special glass appendage that held the mercury.[25] Lieben, like de Forest, believed valve currents were dominated by ions rather than electrons.[2] The misconception about the benefits of gas-filled valves was dispelled in 1913 by Irving Langmuir, who would build a true hard vacuum valve in 1915.[2][21]

The Lieben valve was successfully tested as a telephone line repeater.[2] In 1912 AEG, Felten & Guillaume, Siemens & Halske and Telefunken formed a consortium to market the invention to the telephone industry.[19] In February 1913, Lieben died suddenly from an glandular abscess, which was probably a consequence of his earlier injuries,[26] and the enterprise was disbanded.[19] Reisz relocated to Berlin and launched production of the Lieben valve at the AEG Kabelwerk Oberspree plant.[27] Later the same year, Alexander Meissner of Telefunken applied his theory of positive feedback and used the Lieben valve to create a continuous-wave radio transmitter. Meissner's prototype generated 12 W of output power at a wavelength of 600 metres (about 500 kHz), transmitting amplitude-modulated radiotelephone signals over a range of up to 36 km (22 mi).[2][28] This was the first successful application of continuous oscillations for wireless telephony.[2]

Recognition

 
Memorial to the pioneers of radio, including Lieben and Strauss, at the former Radio Verkehrs AG building in Vienna

During the interwar period, Lieben was hailed in his native Austria as a leading inventor. Streets were named in his honour (German: Liebenstrasse) in Vienna,[19] Amstetten[29] and Berlin.[30] Lieben was depicted on a 1936 Austrian postage stamp that was designed by Wilhelm Dachauer and Ferdinand Lorber.[31] A memorial to Lieben at the Radio Verkehrs AG building in Vienna was opened in 1927 and destroyed after the Anschluss of 1938.[19]

Historical value of the Lieben valve is debatable. According to Reiner zur Linde, it was not an invention but a development of existing designs and ideas of John Ambrose Fleming, Lee de Forest, Arthur Wehnelt and others.[32] Nevertheless, Linde agreed it is a milestone in telephone technology; Lieben and his associates created the electronic amplifier, a working, low-distortion alternative to the carbon microphone repeater.[33]

References

  1. ^ a b Sōgo Okamura 1994, p. 20.
  2. ^ a b c d e f g h i j k Sōgo Okamura 1994, p. 100.
  3. ^ Linde 1995, p. 3.
  4. ^ a b c d e f g h i j k l m Pichler 2001, p. 30.
  5. ^ Rossbacher 2003, pp. 54–64, explains the nature of this union of five families, substantiates the reasons for such grouping, and points to other, salient family connections in Austria and abroad.
  6. ^ Rossbacher 2003, p. 447: Lieben was granted the von Lieben style in 1891, twenty years after the marriage. Ennoblement of Viennese Jews in general is discussed in ibidem, p. 55.
  7. ^ Lloyd 2007, p. 13.
  8. ^ Rossbacher 2003, p. 447: First signs of mental disorder appeared in 1874, after the birth of her elder daughters.
  9. ^ a b Lloyd 2007, p. 12.
  10. ^ a b c Lloyd 2007, p. 19.
  11. ^ Lloyd 2007, pp. 15, 20.
  12. ^ Lloyd 2007, p. 23.
  13. ^ Lloyd 2007, pp. 20–21.
  14. ^ Lloyd 2007, p. 20.
  15. ^ a b c d e f g Follner 2005, p. 76.
  16. ^ Pichler 2006, p. 12.
  17. ^ Sōgo Okamura 1994, p. 20: Another pioneer of valve electronics, Irving Langmuir, also studied under Nernst in the 1900s. Langmuir would leave Nernst in 1906 and begin research into triodes in 1913, the year of Lieben's death..
  18. ^ Pichler 2006, p. 12: Spring 1899 to April 1901.
  19. ^ a b c d e f g h i j Follner 2005, p. 77.
  20. ^ a b c Linde 1995, p. 6.
  21. ^ a b Linde 1995, p. 4.
  22. ^ de 179807, Lieben, Robert von, "Kathodenstrahlenrelais" 
  23. ^ a b at 54011, Lieben, Robert von; Reisz, Eugen & Strauss, Siegmund, "Relais für undulierende Ströme" 
  24. ^ Morris 1990, p. 4.
  25. ^ "Triode oder Dreipolröhre" (in German). Thüringer Museum für Elektrotechnik Erfurt e.V. Retrieved December 1, 2020.
  26. ^ Follner 2005, pp. 44, 88.
  27. ^ Pichler 2006, p. 88.
  28. ^ Sōgo Okamura 1994, p. 115.
  29. ^ "Robert-Lieben-Straße". Retrieved May 14, 2012.
  30. ^ "Liebenstraße". Kauperts. from the original on March 13, 2016. Retrieved May 14, 2012.
  31. ^ "Stamps - Briefmarken Austria". Radiomuseum.org. from the original on March 4, 2016. Retrieved May 14, 2012.
  32. ^ Linde 1995, p. 5.
  33. ^ Linde 1995, pp. 5–6.

Sources

  • Follner, Michaela (2005). "Robert von Lieben". (in German). Vol. 1 (Angetter – Martischnig). Österreichisches Staatsarchiv. pp. 76–78. Archived from the original on March 4, 2016.
  • Lloyd, J. (2007). The Undiscovered Expressionist: A Life of Marie-Louise Von Motesiczky. Yale University Press. ISBN 9780300121544.
  • Linde, R. (1995). Build Your Own Af Valve Amplifiers: Circuits for Hi-Fi and Musical Instruments. Elektor International Media. ISBN 9780905705392.
  • Morris, P.R. (1990). A History of the World Semiconductor Industry. IET. ISBN 9780863412271.
  • Pichler, F. (2001). "Robert von Lieben und die Entwicklung der Roehrenverstaerker" [Robert von Lieben and the development of the valve amplifier]. Plus Lucis (in German) (1): 29–33.
  • Pichler, F. (2006). Robert von Lieben: 100 Jahre Patent Kathodenstrahlenrelais [Robert von Lieben: 100 years of the cathode beam relay patent] (in German). Trauner. ISBN 9783854879435.
  • Rossbacher, K. (2003). Literatur und Bürgertum: fünf Wiener jüdische Familien von der liberalen Ära zum Fin de Siecle [Literature and bourgeoisie: five Viennese Jewish families of the liberal end-of-century era] (in German). Böhlau Verlag Wien. ISBN 9783205994978.
  • Sōgo Okamura (1994). History of electron tubes. Ohmsha Ltd. / IOS Press. ISBN 9789051991451.

External links

  • HTS - Das Leben des Robert von Lieben

March 03, 2023
robert, lieben, september, 1878, vienna, february, 1913, vienna, austrian, entrepreneur, self, taught, physicist, inventor, lieben, associates, eugen, reisz, siegmund, strauss, invented, produced, filled, triode, first, thermionic, valve, with, control, grid, . Robert von Lieben September 5 1878 in Vienna February 20 1913 in Vienna was an Austrian entrepreneur and self taught 1 physicist and inventor Lieben and his associates Eugen Reisz and Siegmund Strauss invented and produced a gas filled triode the first thermionic valve with a control grid that was designed specifically for amplification rather than demodulation of signals and is a distant ancestor of the thyratron 2 3 After Lieben s death the Lieben valve which is also known in English as the Lieben Reisz valve 1 and in German as the LRS Relais 4 Lieben Reisz Strauss relay was used in the world s first continuous wave radio frequency generator designed for radio telephony 2 Contents 1 Biography 2 The Lieben Reisz Strauss valve 3 Recognition 4 References 5 Sources 6 External linksBiography EditRobert von Lieben was the fourth of five children born into a wealthy Viennese Jewish family who were related to the Auspitz Gomperz Todesco and Wertheimstein clans 5 His father Leopold von 6 Lieben managed a family owned bank and chaired the Vienna Trade Chamber his mother Anna nee Todesco younger daughter of Eduard von Todesco was a talented amateur artist and poet 7 Well before Robert was born 8 Anna von Lieben suffered from chronic insomnia drug addiction and various mental conditions 9 She was the first long term patient of Sigmund Freud who later described her under the alias of Cacilie M 9 Robert s parents de facto separated in the 1890s 10 Robert and his siblings grew up in Todesco Palace and from 1888 the Lieben Palace in Oppolzergasse near the Burgtheater and the University of Vienna 11 They were raised in the old fashioned upper class Ringstrasse culture 12 and were exposed to science and philosophy by their home tutor Edmund Husserl and their distinguished relatives Rudolf Auspitz Adolf Lieben and Franz Brentano the latter being a daily visitor at the Lieben Palace during Robert s teenage years 13 Robert attended an academic gymnasium and a Realschule and was not considered an outstanding student 10 He leaned to technology and applied research and spent all of his spare time with brother Ernst and cousin Leo doing experiments 10 His interests were primarily in the fields of telephony and electricity but he was open to new ideas 14 Robert left the school without an abitur which was required to enrol at the University of Vienna and instead became an apprentice at the Siemens Schuckert factory in Nuremberg 15 Having learnt the basics of technology Robert joined the military and volunteered with the uhlan regiment of the Austro Hungarian Army 15 His career ended abruptly a few weeks later after he fell from a horse and was crippled 15 He never fully recovered from the injuries which probably contributed to his early death at the age of 34 15 After his discharge from the Army Lieben attended Franz S Exner s classes at the University of Vienna as an audit student he also attended Walther Nernst s classes at the University of Gottingen 15 16 and developed a long standing friendship with Nernst 15 17 During his two years at Gottingen 18 Lieben designed a camera for photographing the retina of the eye an electrolytic phonograph and an electric transmission for vehicles 15 In 1901 Lieben returned to Vienna and set up his own research laboratory in the ground floor of the Lieben Palace 19 19 4 With the help of University chemist Dr Richard Leiser he studied X rays electric discharge in gases and thermionic emission 19 4 In 1903 Lieben purchased a telephone equipment factory in Olomouc telephony became his main field of work 19 Factory engineers Eugen Reisz and Siegmund Strauss assisted Lieben at the laboratory and Leiser was his main scientific advisor until 1909 19 4 The Lieben Reisz Strauss valve Edit The 1910 Lieben Reisz Strauss valve The perforated disk at the waistline is the control grid The losses in copper telephone lines limited telephone services to between 300 km 190 mi and 750 km 470 mi 20 Communication over longer ranges required the use of repeaters the only type available in the 1900s was the mechanical amplifier that was built around a carbon microphone 20 These high distortion devices were adequate for telegraphy but were almost unusable for transmission of speech 20 Lieben decided to make a low distortion electronic amplifier using the already known cathode ray tube principle to control the flow of current with a weak input signal 4 Through his correspondence with Nernst he knew of Arthur Wehnelt s 1903 21 invention of the oxide coated cathode that enabled fairly strong thermionic emission compared to the inefficient pure tungsten cathode 4 At first Lieben tried to control the current electromagnetically using a deflection coil 4 In 1906 he patented the electromagnetically controlled cathode ray relay although Lieben privately acknowledged the importance of Leiser s contribution the patent 22 was issued to Lieben alone 4 The device did not work as intended 4 because the proposed cathode configuration could not focus the electron beam into a satisfactory shape 4 Feeling no real incentive to run the business 19 in 1908 Lieben sold the Olomouc factory Reisz and Strauss remained on his personal payroll and continued research into cathode relays 4 According to correspondence from Lieben to Leiser Reisz suggested the breakthrough improvement in early 1910 4 and later that year the new properly working valve was patented jointly by Lieben Reisz and Strauss 23 It had electrostatic beam control via a perforated metal plate as a control grid that separated the valve into two chambers 4 23 The cathode was made of pure platinum foil that was coiled in a zigzag fashion around calcium oxide coated tube 2 Functionally the three electrodes were similar to those of Lee de Forest s audion but their layout was distinctly different 2 Unlike the audion which was intended for demodulation of radio signals the Lieben valve was designed for amplification De Forest noted the audion s sensitivity but did not make the conclusion it could amplify signals this discovery was made almost simultaneously by Lieben and Edwin Howard Armstrong 24 By design the Lieben valve was a low vacuum valve with added features of a gas discharge tube making it a remote ancestor of the thyratron 2 The valve contained a drop of mercury that vaporized when heated 2 Production tubes made between 1914 and 1918 had a special glass appendage that held the mercury 25 Lieben like de Forest believed valve currents were dominated by ions rather than electrons 2 The misconception about the benefits of gas filled valves was dispelled in 1913 by Irving Langmuir who would build a true hard vacuum valve in 1915 2 21 The Lieben valve was successfully tested as a telephone line repeater 2 In 1912 AEG Felten amp Guillaume Siemens amp Halske and Telefunken formed a consortium to market the invention to the telephone industry 19 In February 1913 Lieben died suddenly from an glandular abscess which was probably a consequence of his earlier injuries 26 and the enterprise was disbanded 19 Reisz relocated to Berlin and launched production of the Lieben valve at the AEG Kabelwerk Oberspree plant 27 Later the same year Alexander Meissner of Telefunken applied his theory of positive feedback and used the Lieben valve to create a continuous wave radio transmitter Meissner s prototype generated 12 W of output power at a wavelength of 600 metres about 500 kHz transmitting amplitude modulated radiotelephone signals over a range of up to 36 km 22 mi 2 28 This was the first successful application of continuous oscillations for wireless telephony 2 Recognition Edit Memorial to the pioneers of radio including Lieben and Strauss at the former Radio Verkehrs AG building in Vienna During the interwar period Lieben was hailed in his native Austria as a leading inventor Streets were named in his honour German Liebenstrasse in Vienna 19 Amstetten 29 and Berlin 30 Lieben was depicted on a 1936 Austrian postage stamp that was designed by Wilhelm Dachauer and Ferdinand Lorber 31 A memorial to Lieben at the Radio Verkehrs AG building in Vienna was opened in 1927 and destroyed after the Anschluss of 1938 19 Historical value of the Lieben valve is debatable According to Reiner zur Linde it was not an invention but a development of existing designs and ideas of John Ambrose Fleming Lee de Forest Arthur Wehnelt and others 32 Nevertheless Linde agreed it is a milestone in telephone technology Lieben and his associates created the electronic amplifier a working low distortion alternative to the carbon microphone repeater 33 References Edit a b Sōgo Okamura 1994 p 20 a b c d e f g h i j k Sōgo Okamura 1994 p 100 Linde 1995 p 3 a b c d e f g h i j k l m Pichler 2001 p 30 Rossbacher 2003 pp 54 64 explains the nature of this union of five families substantiates the reasons for such grouping and points to other salient family connections in Austria and abroad Rossbacher 2003 p 447 Lieben was granted the von Lieben style in 1891 twenty years after the marriage Ennoblement of Viennese Jews in general is discussed in ibidem p 55 Lloyd 2007 p 13 Rossbacher 2003 p 447 First signs of mental disorder appeared in 1874 after the birth of her elder daughters a b Lloyd 2007 p 12 a b c Lloyd 2007 p 19 Lloyd 2007 pp 15 20 Lloyd 2007 p 23 Lloyd 2007 pp 20 21 Lloyd 2007 p 20 a b c d e f g Follner 2005 p 76 Pichler 2006 p 12 Sōgo Okamura 1994 p 20 Another pioneer of valve electronics Irving Langmuir also studied under Nernst in the 1900s Langmuir would leave Nernst in 1906 and begin research into triodes in 1913 the year of Lieben s death Pichler 2006 p 12 Spring 1899 to April 1901 a b c d e f g h i j Follner 2005 p 77 a b c Linde 1995 p 6 a b Linde 1995 p 4 de 179807 Lieben Robert von Kathodenstrahlenrelais a b at 54011 Lieben Robert von Reisz Eugen amp Strauss Siegmund Relais fur undulierende Strome Morris 1990 p 4 Triode oder Dreipolrohre in German Thuringer Museum fur Elektrotechnik Erfurt e V Retrieved December 1 2020 Follner 2005 pp 44 88 Pichler 2006 p 88 Sōgo Okamura 1994 p 115 Robert Lieben Strasse Retrieved May 14 2012 Liebenstrasse Kauperts Archived from the original on March 13 2016 Retrieved May 14 2012 Stamps Briefmarken Austria Radiomuseum org Archived from the original on March 4 2016 Retrieved May 14 2012 Linde 1995 p 5 Linde 1995 pp 5 6 Sources EditFollner Michaela 2005 Robert von Lieben Biografisches Handbuch osterreichischer Physiker und Physikerinnen anlasslich einer Ausstellung des Osterreichischen Staatsarchivs in German Vol 1 Angetter Martischnig Osterreichisches Staatsarchiv pp 76 78 Archived from the original on March 4 2016 Lloyd J 2007 The Undiscovered Expressionist A Life of Marie Louise Von Motesiczky Yale University Press ISBN 9780300121544 Linde R 1995 Build Your Own Af Valve Amplifiers Circuits for Hi Fi and Musical Instruments Elektor International Media ISBN 9780905705392 Morris P R 1990 A History of the World Semiconductor Industry IET ISBN 9780863412271 Pichler F 2001 Robert von Lieben und die Entwicklung der Roehrenverstaerker Robert von Lieben and the development of the valve amplifier Plus Lucis in German 1 29 33 Pichler F 2006 Robert von Lieben 100 Jahre Patent Kathodenstrahlenrelais Robert von Lieben 100 years of the cathode beam relay patent in German Trauner ISBN 9783854879435 Rossbacher K 2003 Literatur und Burgertum funf Wiener judische Familien von der liberalen Ara zum Fin de Siecle Literature and bourgeoisie five Viennese Jewish families of the liberal end of century era in German Bohlau Verlag Wien ISBN 9783205994978 Sōgo Okamura 1994 History of electron tubes Ohmsha Ltd IOS Press ISBN 9789051991451 External links EditHTS Das Leben des Robert von Lieben Retrieved from https en wikipedia org w index php title Robert von Lieben amp oldid 1136020615, wikipedia, wiki, book, books, library,

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