tm-series cwdm single-fiber networking · the single-fiber cwdm filter units can be mounted...
TRANSCRIPT
The single-fiberCWDM filter unitscan be mountedstand-alone in
the TM-101/-102 chassis or in the larger TM-301
or TM-3000 chassis where it can be combined with other CWDM
or DWDM TrafficUnits.
See separate Data Sheets for
more information about these
products
Data SheetTM-Series
TM-3000/-301/-101/-102
Double Dual GbETransponder
Quad MultiRateTransponder
8-port SDH/SONETMuxPonder
TM-101/-102
TM-301
TM-3000
4xSTM-16/STM-64MuxPonder
The Transmode single-fiber configuration provides a higher degree of networking flexibility since each single-fiber within the fiber-pair can be used independently. This configuration is particularly effective when building bus and ring networks since the optical filters can be placed on either of the single-fibers to provide best transmission performance and/or to enable hitless future upgrades. One of the single-fibers can as an alternative be used for 10G connections using DWDM channels. The figure above shows an example where one single-fibre is used for a 4ch bus network, and the second single-fiber is used for an 8ch point-to-point connection.
A bi-directional connection on a single-fiber is created using two separate wavelengths, one for up-link and one for down-link. The following wavelength pairs are used to create a bi-directional connection;
Upper wavelength band: 1470/1490, 1510/1530, 1550/1570, 1590/1610nmLower wavelength band: 1270/1290, 1310/1330, 1350/1410, 1430/1450nm
The lower wavelength band does not use wavelengths 1370 and 1390nm. This is done to avoid the "water-peak" of standard G.652 fibres and thus open for using all 16 channels also on longer links. The intrinsic higher fiber attenuation in the lower wavelength band will however still limit the bridgeable distance and must be taken into account when designing thenetwork.
Plug-in units
CWDM Single-fiberNetworking
5 5
6 67 7
8 8
1
23
4
Single-fiber
MD
UC
4-EA/1270 M
DU
C4-
EB/1
270
1
23
4
MD
UC
4-TA/1470 M
DU
C4-
TB/1
470
1
23
4
Single-fibre
MD
UC
4-TA/1470
MD
UC
4-TB/1470
1
23
4
The upper wavelength band operates where the fiber attenuation is lowest and is thus the option for bus/ring networks where the optical losses from intermediate add/drop filters need to be taken into account. Optical Add/Drop filters are thus provided in the upper wavelength band only.
The figure shows the two MDU's that operate in the upper wavelength band. Note the direction of the wavelengths:
Note that the product codes are identical, apart from the "TA"and "TB" index. These indexes indcates the direction of the wavelengths. A "TA"- unit shall always be connected to a "TB"- unit.
Both MDU units are half-sized units and can be mounted in passive slots in the TM-3000, TM-301 or TM-101/-102 chassis.
14701490
14701490
15101530
15101530
15501570
15501570
15901610
15901610
MD
UC
4-TA/1470
MD
UC
4-TB
/147
0
MDUC4-TA/1470 Transmits 1470, 1510, 1550, 1590nmMDUC4-TB/1470 Transmits 1490, 1530, 1570, 1610nm.
CWDM
9
1
2
3
4
5
6
7
8
Nc
I/O
Mux
(Rx)
De
Mux
(Tx)
1510blue
1470gray
1550yellow
1590red
1530
1490
1570
1610
MDU C4Ch-TA
Transmode
Line
CWDM
9
1
2
3
4
5
6
7
8
Nc
I/O
Mux(
Rx)
De
Mux
(Tx)
1530green
1490violet
1570orange
1610brown
1510
1470
1550
1590
MDU C4Ch-TB
Transmode
Line
AD2X1C/yyyy
CB Networks - Tel: 33 (0)1 72 74 16 25 - E-Mail: [email protected]
[email protected]+46 (0)8 527 675 50
web:email:
telephone:
Transmode Systems AB
SE-126 14 StockholmSweden
BOX 42114
Mentis Platform
The TM-series Platform entails both CWDM and DWDM solutions
in single-fibre or fibre-pair
configurations. All in the same
card cage, one thesame fibre andunder the same
node and network management
system.
9xGbE/10GMuxponder
mROADM
6-port Ethernet Demarcation Unit
EmbeddedNode Manager (ENM)
TransmodeNetwork Manager (TNM)
Double 10GbE DWDM Transponder
10G Tunable Transponder
The specifications and information within this document are subject to change without further notice. All statements, information and recommendations are believed to be accurate but are presented without warranty of any kind.
1ch Add/Drop units are provided in both upper and lower wavelength band; One unit type has a single 1ch AD-filter and another has two 1ch AD-filters connected back-to-back as shown in the figure.
The 2x 1chAD-filters provide a more compact solution for bus networks where an add/drop in both east and west direction is needed.
All AD-filters are half-sized units.
AD2X1C/1590AD2X1C/1470 AD2X1C/1510 AD2X1C/1550
1470
1490
2x 1ch AD
1510
1530
1550
1570
1590
1610
1470
1490
1510
1530
1550
1570
1590
1610
CWDM
AD 2x1ChCWDM
2
Line
6
5A
B
4
3
A/D A
1
Tx
Rx
A/D B
1470
Rx
Tx
1490
Transmode
CWDM
Transmode
Line
4
3Ext
I/O
1
2
A/D
1470
1490
AD 1ChCWDM
1ch AD
To MDUC4-TA/1470 To MDUC4-TB/1470
To enable up to 8 bidirectional channels on a single-fibre, a MDU-pair for the lower wavelength band can be used. The index "E" indicates that they have an extension port that can be connected to the MDU's in the upper wavelength band and thus giving a 4+4 channel system on a single-fibre.
MDUC4-EA/1270 Transmits 1270, 1310, 1350, 1430nmMDUC4-EB/1270 Transmits 1290, 1330, 1410, 1450nm
The MDUC4-EA/1270 can be combined with a MDUC4-TA/1470 and the MDUC4-EB/1270 can be combined with a MDUC4-TB/1470 to form a 8ch connection. All MDU's are half-sized units.
CWDM
9
1
2
3
4
5
6
7
8
Ext
I/O
Mux
(Rx)
De
Mux
(Tx)
1310
1270
1350
1430
1330
1290
1410
1450
MDU C4Ch-EA
Transmode
Line
10
CWDM
9
1
2
3
4
5
6
7
8
Ext
I/O
Mux
(Rx)
De
Mux
(Tx)
1330
1290
1410
1450
1310
1270
1350
1430
MDU C4Ch-EB
Transmode
Line
10
MDUC4-EA/1270 MDUC4-EB/1270
12701290
13101330
13501410
14301450
MD
UC
4-EA/1270 M
DU
C4-
EB/1
270
12701290
13101330
13501410
14301450
Technical Data
MDUC4-EB/1470
5.6dBMDUC4-EA/1470
MDUC4-TB/1470
2.5dB 3.6dB
AD1C/yyyy AD2x1C/yyyy
3.3dB
2.7dBMDUC4-TA/1470
AD1C/yyyy 3.6dB
2.1dBAD2x1C/yyyy
4.2dB
2.7dB
3.3dB
Add/Drop losses when only using high wavelength units
Add/Drop losses when only using low wavelength units
MDUC4-TB/1470
7.7dB 6.2dB
AD1C/yyyy AD2x1C/yyyy
3.3dB
5.3dB
-
MDUC4-TA/1470
AD1C/yyyy 6.2dB
2.1dBAD2x1C/yyyy
4.2dB
5.3dB
3.3dB
Add/Drop losses when only using both high and low wavelength units
MDUC4-EA/1270
MDUC4-EB/1270
- 4.0dB 5.6dB
-
-
4.0dB
Input fiber type
MDUC4-TA/1470MDUC4-TB/1470
SM
MDUC4-EA/1270MDUC4-EB/1270
MU
SM
1471/14911511/15311551/15711591/1611 (G.694.2)
1271/12911311/13311351/14111431/1451 (G.694.2)
AD1C/yyyy AD2x1C/yyyy
Connector type
Wavelengths (nm)
MU
1471/14911511/15311551/15711591/1611 (G.694.2)
1471/14911511/15311551/15711591/1611 (G.694.2)
MU
SM
MU
SM
- 1.3dB 1.4dB-
Extension port loss 2.6dB- - -
Express loss
Misc Data
The two upper tables shows the end-to-end losses between different units. When designing links using the wavelength in the lower band, ensure to use the correct fibre attenuation values.
As can be seen in the tables, the wavelengths in the lower band have less attenuation through the MDU's compared to the wavelengths in the high band. This is to compensate for the higher fiber attenuation and thus give an overall lower loss.
The fiber attenuation in the low wavelangth band will be the limiting factor and will vary between different fibers. As a consequence, some of the 16 wavelengths cannot be used.
AD2X1C/1430AD2X1C/1270 AD2X1C/1310 AD2X1C/1350
1270
1290
1310
1330
1350
1410
1430
1450
1270
1290
1310
1330
1350
1410
1430
1450
DS-SF-CWDMRev C MAR 2008
12 avenue des prés78059 St Quentin en Yvelines
Tel: 33 (0)1 72 74 16 25Fax: 33 (0)1 30 44 11 95
http://www.cbnetworks.fr E-mail: [email protected]
CB Networks - Tel: 33 (0)1 72 74 16 25 - E-Mail: [email protected]