Table of Contents
Advertisement
8.4 Windows MME Recording
Unlike analog soundcards which produce empty wave files (or noise) when no input signal is
present, digital I/O cards always need a valid input signal to start recording.
To take this into account, RME has included two unique features in the DIGI9652: a
comprehensive I/O signal status display (showing sample frequency, lock and sync status) in
the Settings dialogue, and the protective Check Input function.
If a 48 kHz signal is fed to the input and the application is set to 44.1 kHz, Check Input stops
the system from recording. This prevents faulty takes, which often go unnoticed until later on in
the production. Such tracks appear to have the wrong playback rate - the audio quality as such
is not affected.
The sample frequency shown in the Settings dialogue (see chapter 9, screenshot Settings) is
useful as a quick display of the current configuration (the board itself and all connected external
equipment). If no sample frequency is recognized, it will read 'No Lock'.
With this configuring any suitable audio application for digital recording is simple. After
selecting the required input, DIGI9652 displays the current sample frequency. This
parameter can then be changed in the application's audio attributes (or similar) dialogue.
The screenshot to the right shows a typical
dialogue used for changing basic parameters
such as sample frequency and resolution in an
audio application.
Any bit resolution can be selected, providing it is
supported by both the audio hardware and the
software. Even if the input signal is 24 bit, the
application can still be set to record at 16-bit
resolution. The lower 8 bits (and therefore any
signals about 96dB below maximum level) are
lost entirely. On the other hand, there is nothing
to gain from recording a 16-bit signal at 24-bit
resolution - this would only waste precious space
on the hard disk.
It often makes sense to monitor the input signal or send it directly to the output. The
DIGI9652 includes a useful input monitor function for just this purpose (see Monitoring in
the Settings dialog). Activating Record or Pause in the application causes the input signal to be
routed directly to the corresponding output. However, some applications block monitoring by
constantly activating playback, even if the track is empty. This is often required by programs to
ensure that timing and punch I/O will work correctly.
Currently two solutions exist which enable real-time monitoring even when when playback is
active. Our ZLM (Zero Latency Monitoring) technology allows monitoring in Punch I/O mode -
with this the card behaves like a tape machine. This method has been implemented in all
versions of Samplitude (by SEK'D), and can be activated using the global track option
'Hardware monitoring during Punch'.
The other solution is Steinberg's ASIO protocol with our ASIO 2.0 drivers and all ASIO 2.0
compatible programs. When 'ASIO Direct Monitoring' has been switched on the input signal is
routed in real-time to the output whenever Record is started.
User's Guide DIGI9652 © RME
10
Advertisement
Table of Contents
