Non-compliant SFP types
White Rabbit standard SFP types
1310/1490nm single strand
White Rabbit should follow the 1000BASE-BX10 standard and use 1310/1490nm* pairs with a single LC connector. See SFP for compatible types.
Non-compliant SFP types
1310/1490nm single strand
This type works, but as the EEPROM data does not allow to distinguish the -U and -D sides, the WRS cannot correctly set the delay parameters. Therefore they should not be used in White Rabbit installations.
Despite the price of these SFPs is rather low please be aware that VN of both mentioned SFPs is the same. It is (almost) impossible to distinguish these two SFPs (which has TX 1490nm) and apply correct calibration values. Even worse, there are kinds of SFPs from this manufacturer that are impossible to distinguish at all. For example:
For both TX wavelength is the same (1310nm), but RX differs (1490nm vs 1550nm). The content of EEPROM is almost the same. The same VN, VS and even TX wavelength (in DOM area). SFP's EEPROM contains VN, VS, SN and TX wavelength (in DOM area), but not RX wavelength. Right now we check only VN, VS and SN during the SFP matching.
Transmitting Downstream | Transmitting Upstream | Comment | |
Brand | *Switch (WR Master) * |
*End node (WR Slave) * |
|
fs.com feisu (Chinese) |
Generic Compatible 1000BASE-BX 1490nm-TX/1310nm-RX, firmware no.2 | Generic Compatible 1000BASE-BX 1310nm-TX/1490nm-RX, firmware no.2 | identical 'calib.sfp.part_num' (as of Sept 2017), modules indistinguishable for WR switch |
In our testbench, there are 8 WR nodes and 1 WR switch. They are working well for about two weeks with full UDP bandwidth and WR protocol. We also tested the temperature coefficient of these SFPs, which is almost the same with the SFPs produced by AXCEN. From mail on wr-dev mailing list.
1550/1310nm - single strand
The following SFP transceivers use 1550/1310nm, which is not compliant to the 1000BASE-BX10 standard. Therefore they should not be used in White Rabbit installations.
Brand | Switch side | Node side | Remarks |
Optoway | SPB-7710LG | SPB-7610LG | wavelengths 1550/1310nm instead of 1490/1310nm (Tom) |
TP-Link | TL-SM321A | TL-SM321B | wavelengths 1550/1310nm instead of 1490/1310nm (Achim) |
1271/1331nm - single strand
The following SFP transceivers use 1271/1331nm DFB laser, which is not compliant to the 1000BASE-BX10 standard, but with 10GBASE-LR/LW. Therefore they should not be used in White Rabbit installations. However, for specific applications where it is important to have a much closer spacing of the wavelengths, it may be interesting to use these types.
Brand | Switch side | Node side | Remarks |
Finisar | FTLX2071D3xx | FTLX2071D3xx | 10km reach 10GBASE-LR/LW full-duplex on SMF single strand. Wavelengths 1271/1331 nm instead of 1490/1310nm (Erik) |
1470nm to 1610nm in 20nm steps - dual strand
The following SFP transceivers use DFB lasers with wavelengths from
1470nm to 1610nm in 20nm steps* (selected on purchase). This is not
compliant to the 1000BASE-BX10 standard, but with 1000BASE-ZX or other
speeds. Therefore they should not be used in White Rabbit
installations. However, for specific applications where it is important
to have a specific wavelength to be sent over CWDM networks (coarse
wavelength division multiplexing), it may be interesting to use these
types.
Some types are even specified for a transmission over 120 km.
Brand | SFP | Remarks | Users |
ATOP | CWDM SFP | 1470nm to 1610nm in 20nm steps - dual strand Distributor: c-dis |
|
Stable Technology Co., Ltd | STABLESC125xxCDL120 CWDM Optical Transceiver | 120 km, dual strand Distributor: c-dis |
VSL (see below) |
Eoptolink | SFP DWDM transceiver: 1.25G, LC, DDM, 28 dB, 1529.55 nm | dual strand (Merimaa) |
MIKES |
VSL in Delft, The Netherlands (E.Dierikx) have used in August 2014 the following SFPs for a link running 120km. Note that they use special light amplifiers halfway the link. For the optical path between the WRS and WR Slave 2, these SFPs are used that can cover longer distances:
- In the WRS: Stable Technology Co., Ltd, 1.25G SFP 120Km CWDM Optical Transceiver (part no: STABLESC125xxCDL120, Tx 1490, Rx 1270-1600)
- In WR Slave 2: Stable Technology Co., Ltd, 1.25G SFP 120Km CWDM Optical Transceiver (part no: STABLESC125xxCDL120, Tx 1470, Rx 1270-1600)
The SFPs have two LC connectors; one for Tx and one for Rx. This means that the first part of the fibre path (both at the master and at the slave) needs to be a fibre pair. This fibre pair goes to a 2:1 CWDM multiplexer or demultiplexer. These MUX and DEMUX devices are from Stable Technology. These devices are ordered for the wavelengths 1470 and 1490 nm.
In the lab experiment, the signal from the MUX on the master side goes into a 5 km fibre spool and is attenuated by another 20 dB and then goes into the DEMUX on the slave side (later this fibre spool and attenuator was replaced with the fibre link that goes to Amsterdam). Note that it is important to have sufficient attenuation in the test link. The laser power from these 120 km SFPs is quite strong and may damage the photo diode on the receiver side!
Achim Vollhardt, Erik van der Bij - 19 September 2017