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FEATURES
- Optimux-XLE1 provides a simple, flexible and
cost-effective solution for transporting multiple E1 links and Ethernet at
distances up to 110 km (69 miles). Two versions of the multiplexer are
available: modular and non-modular.
Modular Version
- The modular version of the Optimux-XLE1 integrates
up to 12 E1 channels or up to four Ethernet LANs over a single E3 link.
This provides an easily upgradable solution, flexible enough to meet the
specific requirements of a broad range of applications.
- The modular version supports one fixed 10BaseT
Ethernet port and three additional plug-in channel modules. Available
channel modules are:
- Dual channel E1
- Quad channel E1
- 10BaseT Ethernet.
- Modules can be combined in various ways, ranging
from four Ethernet ports to a single Ethernet port with up to 12 E1
channels.
Non-Modular Version
- The non-modular version supports 16 E1 channels,
and is designed for applications requiring the full E3 bandwidth for
multiple E1 connectivity.
General
- Various optical interfaces are available:
- 850 nm for multimode fiber
- 1300 nm for single or multi mode fiber
- 1300 nm and 1550 nm laser diode, long haul laser
or WDM laser for extended range over single mode fiber
- Two Optimux-XLE1 units can be connected over a
single fiber (SF) using the WDM technology. (The transmit signal is at a
different wavelength than the receive signal.)
- All critical components can be automatically backed
up. This ensures there is no single point of failure. An optional second
link provides backup, using automatic switch-over upon link failure. An
optional second power supply provides power redundancy and fail-safe
operation.
- Ethernet data is transmitted using a built-in
bridging function. The bridge operates at "almost wire-speed" (8.4 Mbps)
and supports up to 10,000 addresses.
- Optimux-XLE1 transmits each of the E1 channels
independently, such that the clock of each E1 channel is independent. The
E1 interface can be 75( unbalanced or 120( balanced.
- A single station clock module can be ordered to
facilitate external clocking.
- To facilitate system diagnostics, Optimux-XLE1
features LED status indicators, AIS alarm generation, recognition and dry
contact closure upon link failure. In addition, the Optimux-XLE1 setup,
control and diagnostics can be performed via:
- A supervisory port using an ASCII terminal
- An SNMP management station via the Ethernet ports
- A dedicated separate Ethernet management port.
- The SNMP management application offers the
following options:
- RADview-PC/TDM running in a Windows environment;
or
- RADview-HPOV/TDM for UNIX platforms.
- Optimux-XLE1 is available as a compact 1U high unit
for mounting in a 19" rack.
- It is possible to add a redundant link to an
existing unit or to replace the link modules by ordering E3 coax,
multimode, or single mode AMC-101 modules.
- Integrates multiple E1 and Ethernet links over a
single cable
- E3 transmission over coax or fiber optic cable
- Supports multimode fiber, single mode fiber and
single mode over single fiber (WDM)
- Laser diode option
- Range up to 110 km (69 miles)
- Conforms to ITU G.703, G.742, G.751, G.823, G.956
- Optional second E3 link provides automatic backup
- Station clock module for external clock
- Optional redundant power supply
- Management using ASCII terminal or SNMP management
station
- Compact, 1U high enclosure
OP-XLE1/*/R/#+/D
Multiplexer with built-in Ethernet port
Note: All channel modules
should be ordered separately (see below).
OP-XLE1/16/?/*/R/#+/D
Multiplexer with 16 E1 channels
|
? |
Specify E1 connector
B for balanced (RJ-45)
U for unbalanced (mini coax) |
|
* |
Specify power supply
AC for 110-230 VAC
48 for -48 VDC
24 for 24 VDC |
|
R |
Specify R for second
redundant power supply (same as first) |
|
#+ |
Specify link interface (# for
connector type, followed by + for optical wavelength) |
|
|
# |
CX for electrical, coax
connector
ST for ST type connector
SC for SC type connector
FC for FC/PC type connector |
|
|
+ |
85 for 850 nm, multimode
13 for 1300 nm, single mode
13L for 1300 nm, single mode, laser diode
15L for 1550 nm, single mode, laser diode
13LH for 1300nm, single mode, long haul laser diode
15LH for 1550 nm, single mode, long haul laser diode
SF1 for transmit 1300 nm, receive 1550 nm
SF2 for transmit 1550 nm, receive 1300 nm |
|
Note: |
For single fiber connection (WDM)
one of the devices has to be ordered with SF1 interface and the other
with SF2 interface. |
|
D |
Specify D for second
redundant link (same type as first link) |
Channel Modules
OP-XL-M/2E1/BAL for 2 ? E1,
balanced (RJ-45)
OP-XL-M/2E1/UB for 2 ? E1,
unbalanced (BNC)
OP-XL-M/4E1/UB for 4 ? E1,
unbalanced (mini coax)
OP-XL-M/4E1/BAL for 4 ? E1,
balanced (RJ-45)
OP-XL-M/ETH for 10BaseT Ethernet
Station Clock Module
AMC-M/STC/E3 for station clock
module
Link Module
It is possible to add a redundant link to
an existing unit or to replace the link modules by ordering one of the
following AMC-101 modules:
AMC-M/CX/34/CARD for E3 coax
module
AMC-M/MM/#/85/T for 850 nm
multimode module
AMC-M/SM/#/+/T for single mode
modules
ORDERING
OP-XLT1/24/R/ST13/D
OP-XLT1/24/R/ST15L/D
OP-XLT1/24/R/ST85/D
OP-XLT1/24/ST85
OP-XLT1/48/R/FC13/D
OP-XLT1/48/R/FC13L/D
OP-XLT1/48/R/FC13LH
OP-XLT1/48/R/FC13LH/D
OP-XLT1/48/R/SC13
OP-XLT1/48/R/SC13/D
OP-XLT1/48/R/SC13L
OP-XLT1/48/R/SC13L/D
OP-XLT1/48/R/SC85/D
OP-XLT1/48/R/SCSF3/D
OP-XLT1/48/R/ST13
OP-XLT1/48/R/ST13D
OP-XLT1/48/R/ST13L
OP-XLT1/48/R/ST15L/D
OP-XLT1/48/R/ST85
OP-XLT1/48/R/ST85/D
OP-XLT1/48/R/STSF1/D
OP-XLT1/48/R/STSF2/D
OP-XLT1/48/SC13L
OP-XLT1/48/ST13
OP-XLT1/48/ST13L
OP-XLT1/48/ST15/LH
OP-XLT1/AC/24/ST85/D
OP-XLT1/AC/FC13
OP-XLT1/AC/R/SC13
OP-XLT1/AC/R/SC13/D
OP-XLT1/AC/R/SC13L/D
OP-XLT1/AC/R/SC15L
OP-XLT1/AC/R/SC85
OP-XLT1/AC/R/SC85/D
OP-XLT1/AC/R/SCSF1
OP-XLT1/AC/R/SCSF1/D
OP-XLT1/AC/R/SCSF2
OP-XLT1/AC/R/SCSF2/D
OP-XLT1/AC/R/SCSF3/D
OP-XLT1/AC/R/ST13
OP-XLT1/AC/R/ST13/D
OP-XLT1/AC/R/ST13L
OP-XLT1/AC/R/ST13L/D
OP-XLT1/AC/R/ST15L
OP-XLT1/AC/R/ST15L/D
OP-XLT1/AC/R/ST85
OP-XLT1/AC/R/ST85/D
OP-XLT1/AC/R/STSF1/D
OP-XLT1/AC/R/STSF2/D
OP-XLT1/AC/SC/SF1
OP-XLT1/AC/SC/SF2
OP-XLT1/AC/SC13
OP-XLT1/AC/SC13/D
OP-XLT1/AC/SC15L
OP-XLT1/AC/SC85
OP-XLT1/AC/ST/SF1
OP-XLT1/AC/ST/SF2
OP-XLT1/AC/ST13
OP-XLT1/AC/ST13/D
OP-XLT1/AC/ST13L
OP-XLT1/AC/ST13L/D
OP-XLT1/AC/ST15L
OP-XLT1/AC/ST85
OP-XLT1/AD/SC13
OP-XLT1/AD/SC13/D
OP-XLT1/AD/ST13
OP-XLT1/AD/ST13/D
OP-XLT1/AD/ST13L/D
OP-XLT1/AD/ST85/D
OP-XLT1/AD/STSF1/D
OP-XLT1/AD/STSF2/D
OP-XLE1/16B/48/CX
OP-XLE1/16B/48/R/CX
OP-XLE1/16B/48/R/CX/D
OP-XLE1/16B/48/R/ST13/D
OP-XLE1/16B/48/R/ST85
OP-XLE1/16B/48/R/ST85/D
OP-XLE1/16B/48/ST13
OP-XLE1/16B/AC/CX
OP-XLE1/16B/AC/R/CX/D
OP-XLE1/16B/AC/R/SC85
OP-XLE1/16B/AC/R/ST13
OP-XLE1/16B/AC/R/ST13D
OP-XLE1/16B/AC/SC13
OP-XLE1/16B/AC/SC13L
OP-XLE1/16B/AC/ST85
OP-XLE1/16U/48/CX
OP-XLE1/16U/48/FC13
OP-XLE1/16U/48/R/SC13L/D
OP-XLE1/16U/48/R/ST/SF1/D
OP-XLE1/16U/48/R/ST/SF2/D
OP-XLE1/16U/48/R/ST13
OP-XLE1/16U/48/R/ST13L
OP-XLE1/16U/48/SC13/D
OP-XLE1/16U/48/ST/SF1
OP-XLE1/16U/48/ST13
OP-XLE1/16U/48/STSF1/D
OP-XLE1/16U/AC/CX
OP-XLE1/16U/AC/R/CX/D
OP-XLE1/16U/AC/R/SC13/D
OP-XLE1/16U/AC/R/SC13L/D
OP-XLE1/16U/AC/R/ST13/D
OP-XLE1/16U/AC/R/ST13L
OP-XLE1/16U/AC/SC13
OP-XLE1/16U/AC/SC13L
OP-XLE1/48/CX
OP-XLE1/AC/CX
OP-XLE1/AC/R/CX/D
OP-XLE1/AC/R/FC13/D
OP-XLE1/AC/R/SC13
OP-XLE1/AC/R/ST13
OP-XLE1/AC/R/ST13/D
OP-XLE1/AC/R/ST85
OP-XLE1/AC/R/ST85/D
OP-XLE1/AC/SC13
OP-XLE1/AC/ST13
OP-XLE1/AC/ST85
APPLICATIONS
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