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Tape bias

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Title: Tape bias  
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Subject: Tape recorder, Compact Cassette, Alexander M. Poniatoff, Marvin Camras, Magnetic tape
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Tape bias

Tape bias is the term for two phenomena, DC bias and AC bias, that improve the fidelity of analogue magnetic tape sound recordings. DC bias is the addition of a 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. Magnetic tape has a nonlinear response at low signal strengths, as measured by its coercivity. Bias increases the signal quality of most audio recordings significantly by pushing the signal into the linear zone of the tape's transfer function.


Magnetic recording was proposed as early as 1888 by Oberlin Smith, who published 1888-09-08 in The Electrical World as "Some possible forms of phonograph". By 1898 Valdemar Poulsen had demonstrated a magnetic recorder and proposed magnetic tape.[1] Fritz Pfleumer was granted DE 500900  for a "Sound recording carrier" on 1928-01-31, but it was later overturned in favour of the earlier US 1653467  by Joseph A. O'Neill.

DC bias

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 was found to reduce distortion by operating the head substantially within its linear response region. The principal disadvantage of DC bias was that it left the tape with a net magnetisation which, because of the grain of the tape particles, generated significant noise on replay. 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 re-adopted by some very low cost cassette recorders.

AC bias

Although the improvements are marked with such DC bias, even more dramatic improvement results if an alternating current bias is used instead. While several people around the world discovered AC bias, it was the German developments that were widely used in practice and served as the model for future work.

The first patent for AC bias was filed by W. L. Carlson and Glenn L. Carpenter in 1921, eventually resulting in US 1640881 . 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. Teiji Igarishi, Mokoto Ishikawa, and Kenzo Nagai of Japan published a paper on AC biasing in 1938 and received a Japanese patent in 1940. Marvin Camras (USA) also discovered high frequency (AC) bias independently in 1941 and received US 2351004 .

The reduction in distortion and noise provided by AC bias was rediscovered in 1940 by Walter Weber (1907–1944), while working for Hans Joachim von Braunmühl at the Reichs-Rundfunk-Gesellschaft (RRG).[2] The German pair received several related patents, including DE 743411  for "high frequency treatment of the sound carrier".

Possibly independently of Weber and Braunmühl, the UK company Boosey & Hawkes produced a steel wire recorder under government contract during the Second World War that was equipped with AC bias. Examples still surface from time to time, many having been disposed of as government surplus stock. After the war, Boosey and Hawkes also produced a "Reporter" tape recorder in the early 1950s using magnetic tape, rather than wire, which was based on German wartime technology.


As the tape leaves the trailing edge of the gap in the tape head, the oscillating magnetic field due to the applied bias is rapidly reduced to the average magnetic field of the much slower changing audio signal and the tape particles are therefore left in this magnetic condition. The non linearity of the magnetic particles in the tape coating is overcome by having the AC bias field greater by at least an 'order of magnitude' (10x the maximum audio field) which saturates these particles in both magnetic directions while they pass the gap in the recording head. The AC bias level is quite critical and after having been adjusted for a particular tape formulation with a specific recording machine was usually left unchanged.


The characteristics of the recording system change quite markedly as the level of the bias current is changed. There is a level at which the system gives the minimum distortion (which is the highest bias). There is also a level at which the high frequency response is at maximum (lowest bias). These conditions unfortunately do not occur at the same bias level. Professional reel to reel and cassette recorders are always set up for minimum distortion. Consumer equipment, and in particular compact audio cassette recorders have the bias set at a compromise level (usually a little higher) to give good frequency response and acceptably low distortion.

Bang & Olufsen invented and patented the so-called Dolby HX PRO (Headroom eXtension) principle for combining bias control with the Dolby system for better high frequency response in cassette recorders. Tandberg invented the cross-field recording system for tape recorders where a separate head with the bias was used. This produced a better bias than by mixing the two signals in the recording head, but mechanical tolerances for cross-field are tight. The system required frequent readjustment and was largely abandoned.

Different amplitudes of bias field are optimal for different types of tape, so most recorders offer a bias setting switch on the control panel, or, in the case of the compact audio cassette, may switch automatically according to cutouts on the cassette shell. Ferric based tapes require the lowest bias field, with Chrome based tapes (including the pseudo chromes) requiring a higher level. Metal particle requires even more. Metal Evaporated tape accepts the highest level of bias, but it is mostly used for digital recording purposes (which does not have bias as the non linearity is not a major problem). The same is valid for a combination cassette tape, the FeCr-variant, on which a thicker Ferric layer was covered by a thinner chrome layer. The idea behind this was that at lower frequencies and higher head currents the Ferric layer would be more deeply magnetized, while at higher frequencies only the top Cr-layer was active. In practice, this didn't work well, and some claimed that this thin chrome layer was quickly polished off in heavy use.

See also


  1. ^ 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
  2. ^ Engel, Friedrich Karl (August 2006). "Walter Weber's Technical Innovation at the Reichs-Rundfunk-Gesellschaft". Retrieved 18 June 2010. 

External links

  • Biasing in tape recording
  • Walter Weber's Technical Innovation at the Reichs-Rundfunk-Gesellschaft
  • BASF Inventor's Notebook: BiasTerence O'Kelly.
  • , AES 1990 March, Arndt KlingelnbergDolby-HX/HX-Pro -- concerning bias, especially dynamic bias Some Not Well Known Aspects of Analog Tape
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