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T+A DAC 8 DSD

$ 2006.4

Availability: 100 in stock
  • All returns accepted: ReturnsNotAccepted
  • Condition: Dealer demo. Fully functional and sounds great!
  • Color: Black
  • Brand: T + A
  • Compatible Brand: T + A
  • Type: DAC

    Description

    Dealer demo.  Fully functional and sounds great!
    Ships in original factory packaging
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    Who shines white light and wants to show
    Above these buttons is the high-resolution monochromatic display, which momentarily indicates the status of any control whose button you've just pushed, including volume, then reverts to the input sample rate. Below the sample rate is a bar that shows the volume level at all times, and additional small indicators that let you know if a signal is locked, if USB in running in asynchronous mode, and if the outputs are connected. A small incline symbol lets you know that volume for the analog outputs is in Variable mode, as switched on the back. The headphone jack is
    always
    in Variable mode, so the incline shows up whenever 'phones are plugged in.
    Since the DAC 8 DSD can indeed handle DSD via USB, the display shows the DSD rate in MHz. The manual includes a handy conversion table, though it took me a few days to get comfortable with these. For example, DSD64 appears on the display as either "2M8 DSD" or "3M1 DSD" (2.8MHz or 3.1MHz), depending on whether the base clock is 44.1 or 48kHz; DSD128 is displayed as "5M6 DSD" or "6M1 DSD"; and so on, all the way up to "22M6 DSD" or "24M6 DSD," for DSD512.
    At the left of the rear panel are balanced (XLR) and unbalanced (RCA) analog outputs, along with the Variable/Fixed switch and an RCA digital output. In the middle is a generous assortment of inputs: four S/PDIF (RCA), BNC, optical, AES/EBU, and USB. The USB input accepts PCM up to 32-bit/384kHz and DSD up to DSD512; DSD256 and DSD512 are possible
    only
    with USB streams from Windows operating systems.
    Finishing off the rear inputs are an Ethernet jack for "future extensions" and a Ctrl (control) interface for use in combination with Crestron- or AMX-type home-automation systems. Finally, there's a standard AC connector for the removable power cord. The only feature missing at this point—and who knows if it will matter in the long run—is MQA.
    Also included is a small, nicely designed plastic remote control that includes all of the functions found on the front panel, as well as a handy Mute button (which the front panel lacks). The remote was easy to use, and became my preferred method for controlling the DAC 8 DSD, especially when I also used it as a preamp.
    The external temperature of the case maxed out at a gentle 93°F—a modest warmth compared to DACs such as the Ayre Codex, which hits 108° after settling in.
    And did you know
    Several DAC 8 DSD users have reported that the way to go for the best sound, assuming you have a PC with the computing power, is to use Signalyst's HQPlayer upsampling multichannel audio player, by itself or with Roon, to upsample everything to DSD512 and then output that to the T+A. Since I kept my focus on using the T+A as is, without the additional variable of external software and its possible effects on the sound, I'll leave that for others to sort out. But with a DAC as endowed as this one is, it might be worth looking into.
    Yes, there are two paths you can go by
    As mentioned earlier, the DAC 8 DSD incorporates some of the technology developed for T+A's more expensive products. The most significant of these is the implementation of two completely separate signal paths for PCM and DSD, which T+A feels is the only way to properly optimize processing for each format. This means that the DAC 8 DSD contains two sets of D/A converters, including a 1-bit converter that, T+A points out, does not at any point convert the DSD signal to PCM. In fact, when switching between DSD and PCM sources, you can hear a pair of relays click as the circuit logic shunts the signal from one path to the other.
    For PCM conversion, T+A uses their Quadruple Converter circuit, which uses a total of four DACs per channel in a double-differential configuration claimed to perfectly cancel out converter errors and nonlinearities while increasing dynamic range by 6dB. On the DSD side, a proprietary T+A discrete-component design is used, avoiding the conversion to PCM performed by most converters.
    T+A's chief design engineer, Lothar Wiemann, explained to me that "We found that it is very difficult to preserve a true DSD signal path with readymade chips. IC manufacturers in most cases do not disclose what actually happens in their chips, so we really could not depend upon a third-party chipmaker to help us create a truly reference DSD decoder. This is why we chose to construct our own 1-bit converter, to be sure that everything is done in a fully optimized way." He added that jitter is also minimized by placing the clock oscillators and converters as physically close to each other as possible.
    When all are one and one is all
    Following conversion from PCM or DSD, either signal is then sent to the same analog section, also with technology developed for T+A's expensive HV series. This includes a completely discrete I/V conversion circuit with selected high-frequency transistors, and a completely discrete analog reconstruction filter stage with matched JFET audio FETs.
    For setting output level, the signal is finally sent to a precision resistor ladder—a fully symmetrical, balanced design. T+A notes that, unlike the "far more expensive" gold-contact relays used in their megabuck products, high-quality electronic switches are used in the DAC 8 DSD. Also, the resistors in the DAC 8 DSD's volume control are from Vishay's MMU series of surface-mount devices (SMDs), instead of the bulkier and more expensive Vishay CMF55 resistors used in T+A's HV series.
    Don't be alarmed now
    Another feature of the DAC 8 DSD is its Clean/Wide option, to prevent possible system meltdowns. An analog filter with a gentle slope is used to remove any high-frequency noise from DSD sources because, as Wiemann explained, "DSD64 signals have a very very high noise floor rising steeply above 20kHz. This noise floor is very negative—it leads to all sorts of problems like intermodulation, and substantial rise of voice-coil temperature in the tweeter. Other side effects might be additional heat in the amplifier, leading to a decrease in bias current and, in turn, to a lower class-A power range. All these effects are negative for the sound, and these effects can be avoided by properly filtering out the high-frequency noise."
    So what the Clean setting actually does is to use a gentle slope, starting around 30kHz, to scrub the unwanted HF noise when using DSD64. The Wide setting is recommended for all other formats, as PCM doesn't have this problem, and higher DSD rates have lower noise ultrasonic floors than DSD64. During my listening, I used the Wide setting at all times for all formats, without problem. T+A also notes that folks who buy their amplifiers can also use the Wide setting in all cases.
    There's a feeling I get
    And now for one of my favorite features of the DAC 8 DSD: switchable custom filters! Why do I get a warm, fuzzy feeling when I see these? Simply because they can be used to fine-tune certain aspects of the sound, and I don't have to rely on what the designer decided was the "best" set of trade-offs among those inherent in all filters. Of course, this works only if the designer has supplied some good filter options in the first place.
    The first two of the four filters in the DAC 8 DSD are variations on the standard finite impulse response (FIR) filter, probably the most common type found in DACs. FIR filters trade off their low-pass frequency-response accuracy with pre- and post-ringing artifacts that show up in the audio signal. T+A's two options adjust these variables with differing results: less ringing, but also less linearity, in the frequency response; or perfect frequency response, but at the expense of some deleterious ringing artifacts that rob music of its impact and spatial detail. Choose your poison.
    Even better, in my opinion, are the DAC 8 DSD's two custom Bézier filters, the likes of which T+A has been developing for years. A Bézier curve—the smoothest path calculated through a given number of data points—is often used in graphics or, in our case, audio samples. Wiemann said that T+A's filters are a spline interpolation using Bézier curves, and that "the Bézier interpolation algorithm has no pre-ringing and no post-ringing. It has the best impulse response of all technically possible oversampling methods."