Neumann.Berlin Digital Microphones For High Resolution Audio Manuel D’Utilisation
SCHNEIDER
DIGITAL MICROPHONES FOR HIGH RESOLUTION AUDIO
AES 31st International Conference, London, UK, 2007 June 25–27
6
they are bound to find wide spread use. As the signal is
transformed with a high-quality AD conversion to the
digital domain, it is now also possible to obtain high-
quality recordings with comparatively inexpensive,
semi-professional recording equipment, if it does allow
24 bit word length, with the chosen sample rate. Digital
microphones will make the job of the studio or location
sound engineer simpler, reducing the probability of
errors, thus keeping his mind free to concentrate on the
acoustical and artistic aspects of the recording.
REFERENCES
[1]
transformed with a high-quality AD conversion to the
digital domain, it is now also possible to obtain high-
quality recordings with comparatively inexpensive,
semi-professional recording equipment, if it does allow
24 bit word length, with the chosen sample rate. Digital
microphones will make the job of the studio or location
sound engineer simpler, reducing the probability of
errors, thus keeping his mind free to concentrate on the
acoustical and artistic aspects of the recording.
REFERENCES
[1]
Reis JP (1861) Über Telephon durch den
galvanischen Strom, Jahresber. d. Physikal.
Vereins zu Frankfurt am Main (1860-1861)
pp. 57-64
galvanischen Strom, Jahresber. d. Physikal.
Vereins zu Frankfurt am Main (1860-1861)
pp. 57-64
[2]
Keating DA (1994) “Optical Microphones”, in:
Gayford ML (1994) Microphone engineering
handbook, Focal Press, Oxford
Gayford ML (1994) Microphone engineering
handbook, Focal Press, Oxford
[3]
Yasuno Y, Riko Y,“A basic concept of direct
converting digital microphone”, Acoust. Soc. Am.
J., vol. 106, pp. 3335-3339 (1999)
converting digital microphone”, Acoust. Soc. Am.
J., vol. 106, pp. 3335-3339 (1999)
[4]
Paul JD et. al. (1991) “Digital output trans-
ducer”, Patent US 5051799
ducer”, Patent US 5051799
[5]
Konrath K (1995) “Konzeption und Entwicklung
eines Prototyps des digitalisierten Mikrophons”,
Diplom Arbeit, FH Düsseldorf, Fachbereich
Medien
eines Prototyps des digitalisierten Mikrophons”,
Diplom Arbeit, FH Düsseldorf, Fachbereich
Medien
[6]
IEC 61938 “Audio, Video and Audiovisual
Systems – Interconnections and Matching Values
– Preferred Matching Values of Analogue
Signals”
Systems – Interconnections and Matching Values
– Preferred Matching Values of Analogue
Signals”
[7]
Almeflo PO, Johansson M, “Suppression of
switch mode power supply noise in digital
microphones”, preprint no. 5341, 110th AES
Conv.,
switch mode power supply noise in digital
microphones”, preprint no. 5341, 110th AES
Conv.,
Amsterdam (2001), see also
www.milab.com
[8]
Harris S et al., “Towards a digitally interfaced
microphone standard”, preprint no. 4518, 103rd
AES Conv., New York (1997)
microphone standard”, preprint no. 4518, 103rd
AES Conv., New York (1997)
[9]
AES42 standard for acoustics – “Digital interface
for microphones”
for microphones”
[10] Peus S, Kern O, “The digitally interfaced
microphone – the last step to a purely digital
audio signal transmission and processing chain”,
presented at 110th AES Conv., Amsterdam
(2001), downloadable at: www.neumann.com
audio signal transmission and processing chain”,
presented at 110th AES Conv., Amsterdam
(2001), downloadable at: www.neumann.com
[11] Microtech Gefell, Brochure: “MV230 digital -
Digital measurement microphone”,
www.microtechgefell.com
www.microtechgefell.com
[12] Schoeps (2006), Brochure: “CMD series”,
www.schoeps.de
[13] Robjohns H (2006) “Neumann KM184-D”, Line-
Up (Nov/Dec 2006); also: Brochure: “KM-D”,
www.neumann.com
www.neumann.com
[14] Funke R, “Untersuchungen an Mikrofonen mit
digitaler Schnittstelle auf ihre Einsatztauglichkeit
in Rundfunkproduktionen“, Dipl.Arbeit, Fach-
hochschule Deggendorf, to be published (2007)
in Rundfunkproduktionen“, Dipl.Arbeit, Fach-
hochschule Deggendorf, to be published (2007)
[15] Peus S, “Measurements on studio microphones”,
preprint no. 4617, 103rd AES Conv., New York
(1997)
(1997)
[16] Schneider M, “Eigenrauschen und Dynamik-
umfang von Mikrophon und Aufnahmekette“,
20. Tonmeistertagung, Karlsruhe (1998)
20. Tonmeistertagung, Karlsruhe (1998)
[17] Harris S et al., “A monolithic 24-bit, 96-kHz
sample rate converter with AES3 receiver”,
preprint no. 4965, 106rd AES Conv., Munich
(1999)
preprint no. 4965, 106rd AES Conv., Munich
(1999)
[18] McLaughlin KJ, Adams R, “An asynchronous
sample rate converter with 120 dB THD+N
supporting sample rates up to 192 kHz”, preprint
no. 5191, 109rd AES Conv., Los Angeles (2000)
supporting sample rates up to 192 kHz”, preprint
no. 5191, 109rd AES Conv., Los Angeles (2000)
[19] Vanderkooy J, Lipshitz SP, “Resolution below
the least significant bit in digital systems with
dither”, J. Audio Eng. Soc., vol. 32, pp. 106-113
(March 1984)
dither”, J. Audio Eng. Soc., vol. 32, pp. 106-113
(March 1984)
[20] Blesser BA, “Digitization of audio: a compre-
hensive examination of theory, implementation,
and current practice”, J. Audio Eng. Soc., vol. 26,
pp. 739-771 (October 1978)
and current practice”, J. Audio Eng. Soc., vol. 26,
pp. 739-771 (October 1978)
[21] Fielder LD, “The audibility of modulation noise
in floating-point conversion systems”,
J. Audio Eng. Soc., vol. 33, pp. 770-781 (October
1985)
J. Audio Eng. Soc., vol. 33, pp. 770-781 (October
1985)