User talk:Kadin2048/OldDBXPage

(This is an archive of the original version of an article I wrote on the DBX Model 700, and was placed at Dbx Model 700 Digital Audio Processor. I used to just keep it in the history of my main Talk page, but I decided keeping it here, on its own subpage, would probably be better.)

Introduction

The dbx Model 700 Digital Audio Processor, was a professional audio ADC/DAC combination unit, which digitized a stereo analog audio input into a bitstream, which was then encoded and encapsulated in an analog composite video signal, for recording to tape using a VCR. Unlike other similar pieces of equipment like the Sony PCM-F1, the Model 700 used a technique called Companded Predictive Delta Modulation, rather than the now-common pulse-code modulation. At the time of its introduction in the mid-1980s the device was the first commercial product to use this method, although it had been proposed years earlier.^[1]

Unlike the many digital recording formats that would follow (e.g. DAT and ADAT), the Model 700 had no capability for storage on its own, and relied on an analog recording medium supplied by the user. In general, any high-quality VHS VCR without automatic tracking would do, although 3/4" U-matic or Beta decks could also have been used. If viewed on a monitor, the output stream of a Model 700 looked like analog TV "static" or noise, with slight black bars running down either side.

Early on, the machine was hailed as "the best recording device you can buy,"^[2] and Stereophile Magazine reviewed it positively.^[3] Many people liked the format because it offered more dynamic range than analog tape, but without the "hard clipping" inherent in PCM audio recorders of the time. The Model 700 had been designed from the beginning to have many 'tape-like' characteristics, including "soft saturation," and at a time when most professional and amateur recordists were used to analog tape, this was considered a significant feature. It also offered 14dB more dynamic range than 44.1kHz/16b audio, and because of its very high sample rate (644kHz), it did not contain the same anti-aliasing filters necessary in PCM recorders at the time, which were thought to cause undesirable harmonic interference.

The device sold for $4,600 in 1986,^[2] and that was without a video recorder on which to store the output, putting it out of the reach of all but the most wealthy home users. However, its target market was professional and studio users, and here it enjoyed relative popularity for a short amount of time as a mastering or mixdown recorder, recording the final output from a multitrack system.

The Model 700 was available in several different versions. In its most basic incarnation, it had two line-level, balanced inputs. One popular upgrade was the addition of one or two microphone preamps, which were installed on removable cards into slots in the machine. These allowed stereo recording directly into the Model 700, bypassing a mixing console. Since the recorder had a significantly lower noise floor than most mixers of the same era, this method made the best use of the system's available dynamic range. Another, much more rare accessory was the Model 700D Disc Mastering Delay. This was a device used for mastering vinyl records, and which attached to a proprietary 25-pin digital output on the back of the Model 700 recorder. Because of the nature of vinyl records (which rotate at a constant angular velocity but at a changing linear velocity with respect to the needle as it moves inwards), it is necessary to speed up or slow down the audio which is being fed to a record cutter in order to preserve the correct pitch. Since the Model 700 did not have the capability of playing back at anything other than 100% normal speed natively (as analog audio tapes do), the Disc Mastering Delay was sold as a solution which enabled this.

The Model 700 was developed and sold by the dbx corporation of Newton, Massachusetts, better known for their system of noise reduction for analog tape.

Technical Specifications

• Dynamic Range: 110dB typical with A-weighted noise 20Hz-20kHz; >105dB unweighted
• Frequency Response: 20Hz-20kHz, sine or pink noise, 100mV, reference record position
• THD: less than 0.05%, 1V input, 1kHz
• Wow and flutter: less than 0.01% unweighted; 0.006% wrms
• Anti-aliasing filters: -3dB at 37kHz
• Sampling Rate: 644kHz
• Bit Rate: 644 kbit/s
• Mic Pre: adds less than 1dB noise, 100 to 1k-ohm impedance
• Max In/Out Levels: +24dBm ^[4]

Theory of Operation

The Model 700 converted analog audio into digital data using a type of delta-sigma modulation, called "Companded Predictive Delta Modulation," or "CPDM" (both trademarked). In a traditional, single-integrated delta-sigma ADC, the voltage of an input signal is compared to the output of an integrator. If the input signal is higher than the integrator's output, a 1 is recorded, and the integrator is given a command to increase by a certain amount. On each clock cycle, the comparison is repeated (and another 1 is recorded) until the integrator's output exceeds the input voltage, at which point a 0 is recorded and the integrator is told to to decrease. In this way, the integrator attempts to follow the input signal as closely as it can. When fed a constant-voltage signal (or when the input is removed completely), the output will "idle" and produce a stream of alternating 1s and 0s. A decoder listening to this stream would produce a small sinusoidal or triangle-wave output, even though the correct output should be flat: this is a form of quantization error.

Where the Model 700 differs from classical delta-sigma modulation is in its replacement of the single integrator with a complex system of comparators and high-order linear prediction filters.^[5] This was done in order to reduce the quantization error, and is accomplished in part by changing the effective "step size" of the encoder based on previously recorded information. (Thereby increasing or decreasing the slew rate.) The system also has two analog pre-processing steps which compress the input signal in both the amplitude and frequency domain, in order to more closely match the abilities of the encoder. This compression is done adaptively based on previously encoded signal, and is reversed on the decoding end.^[6]

References

1. Jonathan Scull, Stereophile, November 1999, Sony SCD-1 Super Audio CD/CD player, Sidebar 1: Direct Stream Digital. http://stereophile.com/digitalsourcereviews/180/index7.html
2. Al Fasoldt, The Post-Standard, 1986, dbx 700: The best recording device you can buy. http://aroundcny.com/technofile/texts/dbx700recorder86.html
3. Stereophile, Vol.10 No.5, August 1987.
4. dbx Inc., Introduction, dbx Model 700 Digital Audio Processor Instruction Manual.
5. Robert W. Adams, Technical Background, dbx Model 700 Digital Audio Processor Instruction Manual.
6. dbx Inc., Appendix and Figures, dbx Model 700 Digital Audio Processor Instruction Manual.

Further Reading

http://www.allaudios.org/detail-7102664.html Archive of a discussion of the dbx 700 by several apparently knowledgeable individuals.

http://lists.bostonradio.org/pipermail/boston-radio-interest/2004-September/003920.html WGBH-FM Boston used the dbx 700 as its studio to transmitter link.

P. Nielsen, On the Stability of Double-Integration Delta Modulators, IEEE Transactions on Communications Technology, Vol. COM-19, 1971.

C. Thoeny, Stability Considerations on Filters Realized with Delta Modulation, IEEE Transactions on Acoustics, Speech, and Signal Processing, Vol. ASSP-28 No. 6, December 1980.