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Tape bias

March 16, 2024

Tape bias is the term for two techniques, AC bias and DC bias, that improve the fidelity of analogue tape recorders. DC bias is the addition of direct current to the audio signal that is being recorded. AC bias is the addition of an inaudible high-frequency signal (generally from 40 to 150 kHz) to the audio signal. Most contemporary tape recorders use AC bias.

Visualization of the magnetic field on a stereo cassette containing a 1 kHz audio tone. Individual high-frequency magnetic domains are visible.

When recording, magnetic tape has a nonlinear response as determined by its coercivity. Without bias, this response results in poor performance, especially at low signal levels. A recording signal that generates a magnetic field strength less than the tape's coercivity cannot magnetise the tape and produces little playback signal. Bias increases the signal quality of most audio recordings significantly by pushing the signal into more linear zones of the tape's magnetic transfer function.

History edit

Magnetic recording was proposed as early as 1878 by Oberlin Smith, who on 4 October 1878 filed, with the U.S. patent office, a caveat regarding the magnetic recording of sound and who published his ideas on the subject in the 8 September 1888 issue of The Electrical World as "Some possible forms of phonograph".[1][2] By 1898, Valdemar Poulsen had demonstrated a magnetic recorder and proposed magnetic tape.[3] Fritz Pfleumer was granted a German patent for a non-magnetic "Sound recording carrier" with a magnetic coating, on 1 January 1928,[4] Years earlier, Joseph O'Neil had created a similar recording medium, yet had not made a working machine that could record sound.[5]

DC bias edit

The earliest magnetic recording systems simply applied the unadulterated (baseband) input signal to a recording head, resulting in recordings with poor low-frequency response and high distortion. Within short order, the addition of a suitable direct current to the signal, a DC bias, was found to reduce distortion by operating the tape substantially within its linear-response region. The principal disadvantage of DC bias was that it left the tape with a net magnetization, which generated significant noise on replay because of the grain of the tape particles. Some early DC-bias systems used a permanent magnet that was placed near the record head. It had to be swung out of the way for replay. DC bias was replaced by AC bias but was later re-adopted by some very low-cost cassette recorders.[6][7][8][9][10]

AC bias edit

The original patent for AC bias was filed by Wendell L. Carlson and Glenn L. Carpenter in 1921, eventually resulting in a patent in 1927.[11] The value of AC bias was somewhat masked by the primitive state of other aspects of magnetic recording, however, and Carlson and Carpenter's achievement was largely ignored. The first rediscovery seems to have been by Dean Wooldridge at Bell Telephone Laboratories, around 1937, but their lawyers found the original patent, and Bell simply kept silent about their rediscovery of AC bias.[12]

Teiji Igarashi, Makoto Ishikawa, and Kenzo Nagai of Japan published a paper on AC biasing in 1938 and received a Japanese patent in 1940.[13] Marvin Camras (USA) also rediscovered high-frequency (AC) bias independently in 1941 and received a patent in 1944.[14]

The reduction in distortion and noise provided by AC bias was rediscovered in 1940 by Walter Weber while working at the Reichs-Rundfunk-Gesellschaft (RRG).[15]

Theory edit

 
A visual of electric current

A quantitative explanation of AC bias has been given by Bertram.[16]

See also edit

References edit

  1. ^ Engel, Friedrich Karl, ed. (2006) "Oberlin Smith and the invention of magnetic sound recording: An appreciation on the 150th anniversary of the inventor's birth". Smith's caveat of 4 October 1878 regarding the recording of sound on magnetic media appears on pp. 14–16. Available at: RichardHess.com
  2. ^ Smith, Oberlin (1888 September 8) "Some possible forms of phonograph," The Electrical World, 12 (10) : 116–117.
  3. ^ Poulsen, Valdemar, "Method of and apparatus for effecting the storing up of speech or signals by magnetically influencing magnetisable bodies", BP 8961, 1898, page 3, row 34.
  4. ^ DE 500900 
  5. ^ Kimizuka, Masanori. "Historical Development of Magnetic Recording and Tape Recorder" (PDF). Museum of Magnetic Sound Recording.
  6. ^ Steve Beeching. "Video and Camcorder Servicing and Technology". 2001. section "Tape bias (audio)". p. 5.
  7. ^ Michael Talbot-Smith. "Audio Engineer's Reference Book". 2013. section "Linearity improvement with bias". p. 3-7.
  8. ^ Charles G. Westcott. "Tape recorders, how they work". 1956. p. 83.
  9. ^ Peter Hammar and Don Ososke. "The Birth of the German Magnetophon Tape Recorder 1928-1945". p. 34-35.
  10. ^ Eugene Trundle. "Newnes Guide to Television and Video Technology". Chapter 15: Magnetic tape recording. 2001.
  11. ^ Carlson, Wendell L. and Carpenter, Glenn W., "Radio telegraph system" U.S. patent 1,640,881 (filed: 26 March 1921 ; issued: 30 April 1927).
  12. ^ McKnight, Jay. "AC Bias at Bell Telephone Laboratories, 1936...1939" (PDF).
  13. ^ Jay McKnight; Jeffrey McKnight (2012), Some Popular Misconceptions About Magnetic Recording History and Theory (PDF), Audio Engineering Society, retrieved 18 December 2018
  14. ^ Camras, Marvin, "Method and means of magnetic recording" U.S. patent 2,351,004 (filed: 22 December 1941; issued: 13 June 1944).
  15. ^ Engel, Friedrich Karl (August 2006). "Walter Weber's Technical Innovation at the Reichs-Rundfunk-Gesellschaft" (PDF). Retrieved 18 June 2010.
  16. ^ Bertram, Neal (February–March 1971). (PDF). Journal de Physique. Archived from the original (PDF) on 24 November 2021. Retrieved 14 December 2015.

Further reading edit

  • Klingelnberg, Arndt (1 March 1990). "Some Not Well Known Aspects of Analog Tape". AES E-Library. Audio Engineering Society.
  • O'Kelly, Terence. "Bias" (PDF). The Inventor's Notebook. BASF (3). Retrieved 8 April 2015.
  • Jay McKnight; Jeffrey McKnight (2012). "Some Popular Misconceptions About Magnetic Recording History and Theory" (PDF). Audio Engineering Society. Retrieved 9 August 2017. {{cite journal}}: Cite journal requires |journal= (help)

External links edit

  • Biasing in Tape Recording

March 16, 2024
tape, bias, this, article, needs, additional, citations, verification, please, help, improve, this, article, adding, citations, reliable, sources, unsourced, material, challenged, removed, find, sources, news, newspapers, books, scholar, jstor, july, 2022, lea. This article needs additional citations for verification Please help improve this article by adding citations to reliable sources Unsourced material may be challenged and removed Find sources Tape bias news newspapers books scholar JSTOR July 2022 Learn how and when to remove this template message Tape bias is the term for two techniques AC bias and DC bias that improve the fidelity of analogue tape recorders DC bias is the addition of direct current to the audio signal that is being recorded AC bias is the addition of an inaudible high frequency signal generally from 40 to 150 kHz to the audio signal Most contemporary tape recorders use AC bias Visualization of the magnetic field on a stereo cassette containing a 1 kHz audio tone Individual high frequency magnetic domains are visible When recording magnetic tape has a nonlinear response as determined by its coercivity Without bias this response results in poor performance especially at low signal levels A recording signal that generates a magnetic field strength less than the tape s coercivity cannot magnetise the tape and produces little playback signal Bias increases the signal quality of most audio recordings significantly by pushing the signal into more linear zones of the tape s magnetic transfer function Contents 1 History 1 1 DC bias 1 2 AC bias 2 Theory 3 See also 4 References 5 Further reading 6 External linksHistory editMagnetic recording was proposed as early as 1878 by Oberlin Smith who on 4 October 1878 filed with the U S patent office a caveat regarding the magnetic recording of sound and who published his ideas on the subject in the 8 September 1888 issue of The Electrical World as Some possible forms of phonograph 1 2 By 1898 Valdemar Poulsen had demonstrated a magnetic recorder and proposed magnetic tape 3 Fritz Pfleumer was granted a German patent for a non magnetic Sound recording carrier with a magnetic coating on 1 January 1928 4 Years earlier Joseph O Neil had created a similar recording medium yet had not made a working machine that could record sound 5 DC bias edit The earliest magnetic recording systems simply applied the unadulterated baseband input signal to a recording head resulting in recordings with poor low frequency response and high distortion Within short order the addition of a suitable direct current to the signal a DC bias was found to reduce distortion by operating the tape substantially within its linear response region The principal disadvantage of DC bias was that it left the tape with a net magnetization which generated significant noise on replay because of the grain of the tape particles Some early DC bias systems used a permanent magnet that was placed near the record head It had to be swung out of the way for replay DC bias was replaced by AC bias but was later re adopted by some very low cost cassette recorders 6 7 8 9 10 AC bias edit The original patent for AC bias was filed by Wendell L Carlson and Glenn L Carpenter in 1921 eventually resulting in a patent in 1927 11 The value of AC bias was somewhat masked by the primitive state of other aspects of magnetic recording however and Carlson and Carpenter s achievement was largely ignored The first rediscovery seems to have been by Dean Wooldridge at Bell Telephone Laboratories around 1937 but their lawyers found the original patent and Bell simply kept silent about their rediscovery of AC bias 12 Teiji Igarashi Makoto Ishikawa and Kenzo Nagai of Japan published a paper on AC biasing in 1938 and received a Japanese patent in 1940 13 Marvin Camras USA also rediscovered high frequency AC bias independently in 1941 and received a patent in 1944 14 The reduction in distortion and noise provided by AC bias was rediscovered in 1940 by Walter Weber while working at the Reichs Rundfunk Gesellschaft RRG 15 Theory edit nbsp A visual of electric currentA quantitative explanation of AC bias has been given by Bertram 16 See also editBarkhausen effect Dither HysteresisReferences edit Engel Friedrich Karl ed 2006 Oberlin Smith and the invention of magnetic sound recording An appreciation on the 150th anniversary of the inventor s birth Smith s caveat of 4 October 1878 regarding the recording of sound on magnetic media appears on pp 14 16 Available at RichardHess com Smith Oberlin 1888 September 8 Some possible forms of phonograph The Electrical World 12 10 116 117 Poulsen Valdemar Method of and apparatus for effecting the storing up of speech or signals by magnetically influencing magnetisable bodies BP 8961 1898 page 3 row 34 DE 500900 Kimizuka Masanori Historical Development of Magnetic Recording and Tape Recorder PDF Museum of Magnetic Sound Recording Steve Beeching Video and Camcorder Servicing and Technology 2001 section Tape bias audio p 5 Michael Talbot Smith Audio Engineer s Reference Book 2013 section Linearity improvement with bias p 3 7 Charles G Westcott Tape recorders how they work 1956 p 83 Peter Hammar and Don Ososke The Birth of the German Magnetophon Tape Recorder 1928 1945 p 34 35 Eugene Trundle Newnes Guide to Television and Video Technology Chapter 15 Magnetic tape recording 2001 Carlson Wendell L and Carpenter Glenn W Radio telegraph system U S patent 1 640 881 filed 26 March 1921 issued 30 April 1927 McKnight Jay AC Bias at Bell Telephone Laboratories 1936 1939 PDF Jay McKnight Jeffrey McKnight 2012 Some Popular Misconceptions About Magnetic Recording History and Theory PDF Audio Engineering Society retrieved 18 December 2018 Camras Marvin Method and means of magnetic recording U S patent 2 351 004 filed 22 December 1941 issued 13 June 1944 Engel Friedrich Karl August 2006 Walter Weber s Technical Innovation at the Reichs Rundfunk Gesellschaft PDF Retrieved 18 June 2010 Bertram Neal February March 1971 Monte Carlo Calculation of Magnetic Hysteresis PDF Journal de Physique Archived from the original PDF on 24 November 2021 Retrieved 14 December 2015 Further reading editKlingelnberg Arndt 1 March 1990 Some Not Well Known Aspects of Analog Tape AES E Library Audio Engineering Society O Kelly Terence Bias PDF The Inventor s Notebook BASF 3 Retrieved 8 April 2015 Jay McKnight Jeffrey McKnight 2012 Some Popular Misconceptions About Magnetic Recording History and Theory PDF Audio Engineering Society Retrieved 9 August 2017 a href Template Cite journal html title Template Cite journal cite journal a Cite journal requires journal help External links editBiasing in Tape Recording Retrieved from https en wikipedia org w index php title Tape bias amp oldid 1177147051, wikipedia, wiki, book, books, library,

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