RME Audio ADI-192 DD User's Guide download pdf (Page 12)

User's Guide ADI-2 © RME

9. Noise level in DS / QS Mode

The outstanding signal to noise ratio of the ADI-2 can be verified even without expensive test

equipment, by using our famous DIGICheck tool or the record level meter of Steinberg's

WaveLab. When activating the DS and QS mode, the displayed noise level will rise from -110

dB to -104 dB at 96 kHz, and –82 dB at 192 kHz. This is not a failure. This kind of measurement

measures the noise of the whole frequency range, at 96 kHz from 0 Hz to 48 kHz (RMS un-

weighted), at 192 kHz even from 0 Hz to 96 kHz.

When limiting the measured area to 22 kHz (audio bandpass, weighted) the value would be -

110 dB again. This can be verified even with RME's DIGICheck. Although a dBA weighted value

does not include such a strong bandwidth limitation as audio bandpass does, the displayed

value of –108 dB is nearly identical to the one at 48 kHz.

The reason for this behaviour is the noise shaping technology of the analog to digital convert-

ers. They move all noise and distortion to the in-audible higher frequency range, above 24 kHz.

That’s how they achieve their outstanding performance and sonic clarity. Therefore the noise is

slightly increased in the ultrasound area. High-frequent noise has a high energy. Add the dou-

bled (quadrupled) bandwidth, and a wideband measurement will show a siginificant drop in

SNR, while the human ear will notice absolutely no change in the audible noise floor.

10. SteadyClock

The ADI-2's SteadyClock technology guarantees an excellent performance in all clock modes.

Thanks to a highly efficient jitter suppression, the AD- and DA-conversion always operate on

highest sonic level, being completely independent from the quality of the incoming clock signal.

SteadyClock has been originally de-

veloped to gain a stable and clean

clock from the heavily jittery MADI

data signal (the embedded MADI

clock suffers from about 80 ns jitter).

Using the ADI-2's input signals

SPDIF and ADAT, you'll most proba-

bly never experience such high jitter

values. But SteadyClock is not only

ready for them, it would handle them

just on the fly.

Common interface jitter values in real

world applications are below 10 ns, a

very good value is less than 2 ns.

The screnshot shows an extremely jittery SPDIF signal of about 50 ns jitter (top graph, yellow).

Thanks to SteadyClock this signal turns into a clock with less than 2 ns jitter (lower graph, blue).

The signal processed by SteadyClock is of course not only used internally, but also used to

clock the digital outputs. Therefore the refreshed and jitter-cleaned signal can be used as refer-

ence clock without hesitation.

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RME Audio ADI-192 DD User's Guide Page 12