![RME ADI-648 [25/32] Steadyclock](/img/pdf.png)
RME ADI-648 [25/32] Steadyclock
![RME ADI-648 [25/32] Steadyclock](/views2/2008002/page25/bg19.png)
User's Guide ADI-648 © RME
25
12.4 SteadyClock
The SteadyClock technology of the ADI-648 guarantees an excellent performance in all clock
modes. Its highly efficient jitter suppression refreshes and cleans up any clock signal, and pro-
vides it as reference clock at the word clock output.
Usually a clock section consists of an analog PLL for external synchronization and several
quartz oscillators for internal synchronisation. SteadyClock requires only one quartz, using a
frequency not equalling digital audio. Latest circuit designs like hi-speed digital synthesizer,
digital PLL, 200 MHz sample rate and analog filtering allow RME to realize a completely newly
developed clock technology, right within the FPGA at lowest costs. The clock's performance
exceeds even professional expectations. Despite its remarkable features, SteadyClock reacts
quite fast compared to other techniques. It locks in fractions of a second to the input signal,
follows even extreme varipitch changes with phase accuracy, and locks directly within a range
of 25 kHz up to 100 kHz.
SteadyClock has originally been 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, caused
by the time resolution of 125 MHz
within the format. Common jitter values
for other devices are 5 ns, while a very
good clock will have less than 2 ns.
The picture to the right shows the
MADI input signal with 80 ns of jitter
(top graph, yellow). Thanks to Steady-
Clock this signal turns into a clock with
less than 2 ns jitter (lower graph, blue).
Using the other inputs sources of the
ADI-648, word clock and ADAT, you'll
most probably never experience such
high jitter values. But SteadyClock is
not only ready for them, it would handle
them just on the fly.
The screenshot to the right shows an
extremely jittery word clock signal of
about 50 ns jitter (top graph, yellow).
Again SteadyClock provides an ex-
treme clean-up. The filtered clock
shows less than 2 ns jitter (lower
graph, blue).
The cleaned and jitter-freed signal can be used as reference clock for any application, without
any problem. The signal processed by SteadyClock is of course not only used internally, but
also available at the ADI-648's word clock output. It is also used to clock the digital outputs
MADI and ADAT.
Содержание
- Adi 648 1
- Hi precision 24 bit 192 khz 64 channel madi adat converter 16 x 16 matrix router midi embedded in madi 1
- Intelligent clock contro 1
- Multichannel audio digital interface 1
- Steadycloc 1
- Syncalig 1
- Syncchec 1
- User s guide 1
- Important safety instructions 3
- Brief description and characteristics 5
- Introduction 5
- Package contents 5
- Inputs 6
- Technical specifications 6
- Digital 7
- Outputs 7
- Firmware 8
- First usage 8
- Quick start 8
- Operating the adi 648 9
- General 10
- Input state display 10
- Inputs 10
- The madi to adat converter 10
- Outputs adat optical 11
- General 12
- Input state display 12
- Inputs 12
- The adat to madi converter 12
- Clock configuration 13
- Clock section 13
- Outputs madi 13
- Lock synccheck and syncalign 14
- Word clock input and output 15
- Operation and technical background 16
- Word clock 16
- Cabling and termination 17
- Midi transmission 18
- Remote controlling the adi 648 18
- Remote control software 19
- Adat patchbay and splitter 21
- Madi coaxial optical converter 21
- Madi merger 21
- Madi to madi converter 21
- Special modes 21
- Madinet 22
- Ds double speed 23
- Qs quad speed 23
- Technical background 23
- Madi basics 24
- Steadyclock 25
- Controls and connectors 26
- Block diagram 27
- Basic sysex format 28
- Madi input state redundancy mode 28
- Message types 28
- Midi implementation chart adi 648 28
- Table 1 29
- Table 2 30
- Table 3 30
- Appendix 31
- Warranty 31
- Ce fcc compliance 32
- Iso 9001 32
- Note on disposal 32
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