A clock with ultra-low jitter crystals
Because it has the largest impact on sound quality, the clock uses ultra-low jitter crystals with phase jitter of less than 1 ps. The layout places it as close to the DAC chip as possible to create the ideal clock-wave pattern.
Eight different power supplies
Equipped with eight different power supplies that use our original high-speed discrete regulators. The DAC peripheral circuits employ independent power supplies for the left and right channels in both analog power supply and digital power supply. The D-1N also contains a power supply for the crystals, one for USB, one for logic, and one for the SPDIF differential receiver. These eight power supplies use SOULNOTE's original high-speed discrete regulators that prioritize sound quality to let the high-voltage ES9038PRO's true potential shine.
Uses the groundbreaking Bulk Pet transfer method
USB-Audio generally transfers data using the Isochronous transfer method. The D-1N uses Bulk Pet, a new Bulk transfer method developed by Interface Corporation. The Bulk transfer method results in reduced loads for computers and D/A converters, ushering in the next dimension in playback sound quality.
Metallic insulators as standard equipment (when under load)
Though plastic insulators are the conventional standard, we now use metallic insulators since they promote higher sound quality.
In addition to the conventional FIR oversampling mode, the D-1N also includes a new non over sampling mode, which is basically a non negative feedback version adapted to operate in the digital domain. This mode does not generate the pre- and post-echoes observed in FIR oversampling. It also boasts extremely low noise levels with analog outputs, with no difference in levels between the two modes.
Impulse output waveform with an FIR oversampling filter (D-1N analog output)
Pre- and post-echoes are artificial "sounds" created by data calculations before and after the data is interpolated. They make waveforms like sine waves appear smoother, but calculation algorithms can affect the sound quality or ambiguity and be added to the time axis.
Impulse output waveform in non-oversampling mode (D-1N analog output)
This waveform can only be achieved by combining a non-NFB discrete amplifier with superb transient response performance. Because music waveforms are actually a series of impulse waveforms of different heights, the non-oversampling mode eliminates any ambiguity in the time axis information, creating more realistic and natural sound quality and an expansive listening environment to the human ear, which is extremely sensitive to the time axis.
* The non-oversampling mode cannot be used with DSD.
The power transformer uses a 260 VA large-scale toroidal transformer. This creates a power amplifier class non-NFB power supply. With an exceptionally high voltage setting of ±43 V, this discrete non-NFB power supply also used in amplifiers to offer playback that is both detailed in its spatial expression and filled with energy.
Power Design by Soulnote D–1N
The current line-up Soulnote is based on new design concept.
Input format
USB: PCM, DSD (DoP v1.1, ASIO)
Coaxial, AES/EBU:
PCM, DSD (DoP v1.1)
Supported sampling frequency
USB: Max. 768kHz (PCM) / Max. 22.6MHz (DSD)
Coaxial, AES/EBU:
Max. 192kHz (PCM) / Max. 2.8MHz (DSD64 DoP v1.1)
PCM quantization bit rate
USB: 16bit, 24bit, 32bit
Coaxial, AES/EBU:
16bit, 24bit
USB profile
USB 2.0, USB Audio 2.0
Digital input
USB (Typ B), coaxial x2 (SPDIF), AES/EBU
Analog output
XLR x1, Cinch x1
Analog Output level
XLR: 5,6 Vrms
RCA: 2,8 Vrms
Frequency characteristic
2Hz to 120kHz (+0/-1dB)
S/N ratio
110dB
Total harmonic distortion
0,003%
Analog filter
Two-dimensional passive
Power voltage
230V AC 50Hz
Power consumption
40W
Maximum external dimensions
Main unit: 456(B)×109(H)×379(T)mm
Weight
10kg
Included accessories
Spikes, Power cord
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