Development The basic tape mechanism of DAT is closely based on
video recorders, using a rotating head and
helical scan to record data. This prevents DATs from being physically
edited in the cut-and-splice manner of
analog tapes, or open-reel digital tapes like
ProDigi or
DASH. In 1983, a DAT meeting was established to unify the standards for recording digital audio on magnetic tape developed by each company and in 1985, two standards were created:
R-DAT (
Rotating Digital Audio Tape) using a rotary head and
S-DAT (
Stationary Digital Audio Tape) using a fixed head. The S-DAT format had a simple mechanism similar to the
Compact Cassette format, but it was difficult to develop a fixed recording head for high-density recording, while the rotating head of the R-DAT had a proven track record in VCR formats like
VHS &
Betamax. As the S-DAT version was never released, R-DAT had been renamed as simply DAT by the time of its launch. However, Philips and Matsushita (Panasonic) would later release their own stationary head digital format in the form of the
Digital Compact Cassette. Sony would later introduce another rotating head format in the form of
NT, which was intended to replace the
Microcassette and
Mini-Cassette. The DAT standard allows for four sampling modes: 32 kHz at 12 bits, and 32 kHz, 44.1 kHz or 48 kHz at 16 bits. Certain recorders operate outside the specification, allowing recording at 96 kHz and 24 bits (HHS). Some early machines aimed at the consumer market did not operate at 44.1 kHz when recording so they could not be used to 'clone' a compact disc. Since each recording standard uses the same tape, the quality of the sampling has a direct relation to the duration of the recording – 32 kHz at 12 bits will allow six hours of recording onto a three-hour tape while HHS will only give 90 minutes from the same tape. Included in the signal data are subcodes to indicate the start and end of tracks or to skip a section entirely; this allows for indexing and fast seeking. Two-channel
stereo recording is supported under all
sampling rates and bit depths, but the R-DAT standard does support 4-channel recording at 32 kHz. DATs are between 15 and 180 minutes in length, a 120-minute tape being 60 metres in length. DATs longer than 60 metres tend to be problematic in DAT recorders due to the thinner media. DAT machines running at 48 kHz and 44.1 kHz sample rates transport the tape at . DAT machines running at 32 kHz sample rate transport the tape at .
Predecessor formats DAT was not the first digital audio tape;
pulse-code modulation (PCM) was used in
Japan by
Denon in 1972 for the mastering and production of analogue
phonograph records, using a
2-inch Quadruplex-format videotape recorder for its
transport, but this was not developed into a
consumer product. Denon's development dated from its work with Japan's NHK Broadcasting; NHK developed the first high-fidelity PCM audio recorder in the late 1960s. Denon continued development of their PCM recorders that used professional video machines as the storage medium, eventually building 8-track units used for, among other productions, a series of jazz records made in New York in the late 1970s. In 1976, another digital audio tape format was developed by
Soundstream, using wide
reel-to-reel tape loaded on an
instrumentation recorder manufactured by
Honeywell acting as a transport, which in turn was connected to outboard digital audio encoding and decoding hardware of Soundstream's own design. Soundstream's format was improved through several prototypes and when it was developed to 50 kHz sampling rate at 16 bits, it was deemed good enough for professional classical recording by the company's first client,
Telarc Records of Cleveland, Ohio. Telarc's April 1978 recording of
Gustav Holst's
Suites Nos. 1 & 2 for Military Band by
Frederick Fennell and the Cleveland Wind Ensemble was a landmark release, and ushered in
digital recording for America's classical music labels. Soundstream's system was also used by
RCA. Starting in 1978,
3M introduced its own line and format of digital audio tape recorders for use in a
recording studio. One of the first prototypes of 3M's system was installed in the studios of
Sound 80 in
Minneapolis, Minnesota. This system was used in June 1978 to record
Aaron Copland's "Appalachian Spring" by the St. Paul Chamber Orchestra conducted by Dennis Russell Davies. That record was the first Grammy-winning digital recording. The production version of the 3M Digital Mastering System was used in 1979 to record the first all-digital rock album,
Ry Cooder's Bop Till You Drop, made at Warner Brothers Studio in California. The first consumer-oriented PCM format used consumer video tape formats (Beta and VHS) as the storage medium. These systems used the EIAJ digital format, which sampled at 44.056 kHz at 14 bits. The Sony PCM-F1 system debuted in 1981, and Sony from the start offered the option of 16-bit wordlength. Other systems were marketed by Akai, JVC, Nakamichi and others. Panasonic, via its Technics division, briefly sold a digital recorder that combined an EIAJ digital adapter with a VHS video transport, the SV-P100. These machines were marketed by consumer electronics companies to consumers, but they were very pricey compared to cassette or even reel-to-reel decks of the time. They did catch on with the more budget-conscious professional recordists, and some boutique-label professional releases were recorded using these machines. Starting in the early 1980s, professional systems using a
PCM adaptor were also common as mastering formats. These systems digitized an analog audio signal and then encoded the resulting digital stream into an analog video signal so that a conventional VCR could be used as a storage medium. One of the most significant examples of a PCM adaptor-based system was the
Sony PCM-1600 digital audio mastering system, introduced in 1978. The PCM-1600 used a
U-Matic-format VCR for its transport, connected to external digital
audio processing hardware. It (and its later versions such as the PCM-1610 and 1630) was widely used for the production and mastering of some of the first Digital Audio CDs in the early 1980s. Once CDs were commercially introduced in 1982, tapes recorded on the PCM-1600 were sent to the CD pressing plants to be used to make the glass master disc for CD replication. Other examples include
dbx, Inc.'s
Model 700 system, which, similar to later
Super Audio CDs, used a high sample-rate delta-sigma modulation rather than PCM; Decca's 1970s
PCM system, which used a videotape recorder manufactured by
IVC for a transport; and
Mitsubishi's X-80 digital recorder, a 6.4 mm ( in)
open reel digital
mastering format that used a very unusual sampling rate of 50.4 kHz. For high-quality studio recording, all of these formats were effectively made obsolete in the early 1980s by two competing
reel-to-reel formats with stationary heads:
Sony's
DASH format and
Mitsubishi's continuation of the X-80 recorder, which was improved upon to become the
ProDigi format. (In fact, one of the first ProDigi-format recorders, the Mitsubishi X-86C, was playback-compatible with tapes recorded on an X-80.) Both of these formats remained popular as an analog alternative until the early 1990s, when hard disk recorders rendered them obsolete.
Demise Sony released its last DAT product with the DAT
Walkman TCD-D100 in 1995 and continued to produce it until November 2005, when Sony announced that its remaining DAT machine models would be discontinued the following month. Sony had sold around 660,000 DAT products since its introduction in 1987. Sony continued to produce blank DAT tapes until 2015 when it announced it would cease production by the end of the year. Although it has been superseded by modern
hard disk recording or
memory card equipment, which offers much more flexibility and storage,
Digital Data Storage tapes, which are broadly similar to DATs, apart from tape length and thickness on some variants, and are still manufactured today unlike DAT cassettes, are often used as substitutes in many situations.
Digital Compact Cassette The DAT recorder mechanism was considerably more complex and expensive than an analogue
cassette deck mechanism due to the rotary helical scan head, therefore
Philips and
Panasonic Corporation developed a rival
digital tape recorder system with a stationary head based on the
analogue compact cassette known as S-DAT. The
Digital Compact Cassette (DCC) was cheaper and simpler mechanically than DAT, but did not make perfect digital copies as it used a
lossy compression technique called
PASC. (Lossy compression was necessary to reduce the data rate to a level that the DCC head could record successfully at the linear tape speed of that the compact cassette system uses.) DCC was never a competitor to DAT in recording studios because DAT was already established, and studios favor lossless formats. As DCC was launched at the same time as
Sony's
Minidisc format (which has
random access and editing features), it was not successful with consumers either. However, DCC proved that high-quality digital recording could be achieved with a cheap, simple mechanism using stationary heads. == Anti-DAT lobbying ==