Hardware Connectivity; Power; Sdi; Network (Dante) - Solid State Logic SSL SDI User Manual

Hardware Connectivity

P
Ower
Network I/O – SDI includes redundant PSU with IEC connectors, either supply can
individually power the unit – both should be used for redundancy. Ideally these should
be connected to separate mains supplies to provide external connection redundancy.

SDI

8 SDI inputs and 8 SDI outputs with auto format selection up to 3G SDI. These are video
thru circuits with 16 channels of Audio De-Embedding and Embedding. Sample Rate
Conversion (SRC) per audio group. The SDI circuits are represented in the Network I/O –
SDI Software Manager as cards 2, 4, 6 and 8. Each card includes 32 audio channels 1-16
being SDI 1, 17-32 being SDI 2 on each card.
N (D )
eTwOrK ANTe
AES/EBU I/O 1-4
Primary and Secondary Dante connections (Net1 and Net2) are provided on RJ45
connectors. The Primary port is the control connection for the Network I/O SDI
configuration tool.
AES/EBU I/O 5-8
A pair of LEDs per port provides network connection and activity information:
out
ACT flashes when there is network activity
GB shows solid green when connected to a gigabit network
Note: The Dante Controller application cannot be used on the secondary connection.

MADI

Three MADI ports can be provided: two fibre and one copper. The optional fibre ports can
be configured to function as a redundant pair. The interface is via SFP sockets, for use
with multimode or singlemode LC fibre cables. The third MADI port is via standard BNC
connectors.
S
yNC
Video Sync or Word Clock input on BNC, plus AES11 sync input on XLR are provided. The
unit can also be synchronized from the network (using Dante PTP) any of the MADI
connections or AES inputs. The order of the sync preference can be defined using the
software application.

AeS

The AES connection on 25-way D-type connectors allow additional AES connectivity with
Audio routing to any of the other connected devices.

(PHD I/O)

Other/future usage. Not currently implemented.
See Appendix C, page 18 for connector pinout information.
Page 4
AES/EBU I/O 1-4
AES/EBU I/O 1-4
AES/EBU I/O 5-8
MADI
AES/EBU I/O 5-8
in
Primary 1
Solid State Logic
100-240 VAC, 50/60 Hz
Solid State Logic
Solid State Logic
Max 90 VA
Fuse T1AH/250VAC
100-240 VAC, 50/60 Hz
100-240 VAC, 50/60 Hz
Max 90 VA
Max 90 VA Fuse T1AH/250VAC
Optical I/O
MADI
Fuse T1AH/250VAC
in
MADI Optical I/O
in
PHD I/O
out
Primary 1 Pr 2/Exp
Optical I/O WC/VBB
PHD I/O
out
Primary 1 Pr 2/Exp
in
PHD I/O
out
Pr 2/Exp
AES/EBU I/O 1-4
AES/EBU I/O 5-8
AES/EBU I/O 1-4
MADI
in
AES/EBU I/O 5-8
out
AES/EBU I/O 1-4
AES/EBU I/O 5-8
AES/EBU I/O 1-4
1
AES/EBU I/O 5-8
1
2
WC/VBB
2
AES11 in
in
WC/VBB
Net 1
AES11 in
in
out
Net 1
out
AES11 in
ACT
MADI
in
AES/EBU I/O 1-4
out
Solid State Logic Primary 1
100-240 VAC, 50/60 Hz
Max 90 VA
AES/EBU I/O 5-8
Fuse T1AH/250VAC
Optical I/O WC/VBB
in
PHD I/O
out
Primary 1 Pr 2/Exp
AES/EBU I/O 1-4
AES/EBU I/O 5-8
MADI
in
out
Primary 1
SDI – User Guide
Solid State Logic
100-240 VAC, 50/60 Hz
Max 90 VA
Fuse T1AH/250VAC
Optical I/O
8 MADI 7
in
1
8
Out
8 7 6
In
PHD I/O
out
Primary 1 Pr 2/Exp
1
1
Out
Out
In
2
In
Out
In
2
Out
In
2
Net 2
Out
In
Net 2
GB
Net 1 Net 2
Solid State Logic
100-240 VAC, 50/60 Hz
Max 90 VA
Fuse T1AH/250VAC
Solid State Logic
100-240 VAC, 50/60 Hz
Max 90 VA
Optical I/O WC/VBB
Fuse T1AH/250VAC
in
Optical I/O
MADI
PHD I/O 8
out
Pr 2/Exp
in
1
Out
PHD I/O
out
Primary 1 Pr 2/Exp
2
Out
AES11 in
Net 1 Net 2
Solid State Logic
100-240 VAC, 50/60 Hz
Max 90 VA
MADI
Fuse T1AH/250VAC
in
Optical I/O WC/VBB
out
in
PHD I/O
out
Pr 2/Exp
6
i
7
Out
In
o
Out
In
Out
In
Out
In
AES11 in
In
In
Prima
AES11 in