SFP transceivers are available with a variety of transmitter and receiver specifications, allowing users to select the appropriate transceiver for each link to provide the required
optical or
electrical reach over the available media type (e.g.
twisted pair or
twinaxial copper cables,
multi-mode or
single-mode fiber cables). Transceivers are also designated by their transmission speed. SFP modules are commonly available in several different categories. Note that the QSFP/QSFP+/QSFP28/QSFP56 are designed to be electrically backward compatible with SFP/SFP+/SFP28 or SFP56 respectively. Using a simple adapter or a special direct attached cable it is possible to connect those interfaces together using just one lane instead of four provided by the QSFP/QSFP+/QSFP28/QSFP56 form factor. The same applies to the QSFP-DD form factor with 8 lanes which can work downgraded to 4/2/1 lanes.
SFP • Multi-mode fiber,
LC connector, with '
or ' color coding •
SX850 nm, for a maximum of 550 m • Multi-mode fiber,
LC connector, with '''''' color coding •
FX 1300 nm, for a distance up to 5 km. •
LFX (name dependent on manufacturer)1310 nm, for a distance up to 5 km. • Single-mode fiber, LC connector, with '''''' color coding •
LX1310 nm, for distances up to 10 km •
EX1310 nm, for distances up to 40 km • Single-mode fiber, LC connector, with '''''' color coding •
ZX1550 nm, for distances up to 80 km, (depending on fiber path loss) •
EZX1550 nm, for distances up to 160 km (depending on fiber path loss) • Single-mode fiber, LC connector, Bi-Directional, with '
and ' color coding •
BX (officially
BX10)1550 nm/1310 nm, Single Fiber Bi-Directional 100 Mbit SFP Transceivers, paired as
BX-U () and
BX-D () for uplink and downlink respectively, also for distances up to 10 km. Variations of bidirectional SFPs are also manufactured which higher transmit power versions with link length capabilities up to 40 km. • Copper twisted-pair cabling,
8P8C (RJ-45) connector •
100BASE-TX for distances up to 100m.
SFP • 1 to 1. multi-mode fiber,
LC connector, with black or beige extraction lever • 1 to 1. multi-mode fiber,
LC connector, extraction lever colors not standardized •
SX+/MX/LSX/LX (name dependent on manufacturer)1310 nm, for a distance up to 2 km. Not compatible with SX or 100BASE-FX. Based on LX but engineered to work with a multi-mode fiber using a standard multi-mode patch cable rather than a mode-conditioning cable commonly used to adapt LX to multi-mode. • 1 to 2. single-mode fiber, LC connector, with blue extraction lever Variations of bidirectional SFPs are also manufactured which use 1550 nm in one direction, and higher transmit power versions with link length capabilities up to 80 km. • 1550 nm 40 km (
XD), 80 km (
ZX), 120 km (
EX or
EZX) •
SFSWsingle-fiber single-wavelength transceivers, for bi-directional traffic on a single fiber. Coupled with CWDM, these double the traffic density of fiber links. •
Coarse wavelength-division multiplexing (CWDM) and
dense wavelength-division multiplexing (DWDM) transceivers at various wavelengths achieve various maximum distances. CWDM and DWDM transceivers usually support link distances of 40, 80 and 120 km. • for copper twisted-pair cabling,
8P8C (RJ-45) connector •
1000BASE-Tthese modules incorporate significant interface circuitry for
Physical Coding Sublayer recoding and can be used only for
gigabit Ethernet because of the specific line code. They are not compatible with (or rather: do not have equivalents for)
Fibre Channel or SONET. Unlike most non-SFP, copper 1000BASE-T ports integrated into most routers and switches, 1000BASE-T SFPs usually cannot operate at
100BASE-TX speeds. • copper and opticalsome vendors have shipped limited SFPs for
fiber-to-the-home applications and drop-in replacement of legacy
100BASE-FX circuits. These are relatively uncommon and can be easily confused with SFPs. • Although it is not mentioned in any official specification document the maximum data rate of the original SFP standard is . This was eventually used by both 4GFC Fibre Channel and the DDR Infiniband especially in its four-lane QSFP form. • In recent years, SFP transceivers have been created that will allow
2. and Ethernet speeds with SFPs with 2.5GBASE-T and 5GBASE-T.
SFP+ XFP transceiver,
top, and a SFP+ transceiver,
bottom The
SFP+ (
enhanced small form-factor pluggable) is an enhanced version of the SFP that supports data rates up to 16
Gbit/s. The SFP+ specification was first published on May 9, 2006, and version 4.1 was published on July 6, 2009. SFP+ supports
Fibre Channel,
10 Gigabit Ethernet and
Optical Transport Network standard OTU2. It is a popular industry format supported by many network component vendors. Although the SFP+ standard does not include mention of Fibre Channel, it can be used at this speed. Besides the data rate, the major difference between 8 and Fibre Channel is the encoding method. The
64b/66b encoding used for is a more efficient encoding mechanism than
8b/10b used for , and allows for the data rate to double without doubling the line rate. 16GFC doesn't really use signaling anywhere. It uses a 14. line rate to achieve twice the throughput of 8GFC. SFP+ also introduces
direct attach for connecting two SFP+ ports without dedicated transceivers. Direct attach cables (DAC) exist in passive (up to 7 m), active (up to 15 m), and active optical (AOC, up to 100 m) variants. SFP+ modules are exactly the same dimensions as regular SFPs, allowing the equipment manufacturer to re-use existing physical designs for 24 and 48-port switches and modular
line cards. In comparison to earlier
XENPAK or
XFP modules, SFP+ modules leave more circuitry to be implemented on the host board instead of inside the module. Through the use of an active electronic adapter, SFP+ modules may be used in older equipment with
XENPAK ports and
X2 ports. SFP+ modules can be described as
limiting or
linear types; this describes the functionality of the inbuilt electronics. Limiting SFP+ modules include a signal amplifier to re-shape the (degraded) received signal whereas linear ones do not. Linear modules are mainly used with the low bandwidth standards such as
10GBASE-LRM; otherwise, limiting modules are preferred.
SFP28 SFP28 is a interface which evolved from the
100 Gigabit Ethernet interface which is typically implemented with 4 by data lanes. Identical in mechanical dimensions to SFP and SFP+, SFP28 implements one lane accommodating of data with encoding overhead. SFP28 modules exist supporting single- or multi-mode fiber connections, active optical cable and direct attach copper.
cSFP The
compact small form-factor pluggable (
cSFP) is a version of SFP with the same mechanical form factor allowing two independent bidirectional channels per port. It is used primarily to increase port density and decrease fiber usage per port.
SFP-DD The
small form-factor pluggable double density (
SFP-DD) multi-source agreement is a standard published in 2019 for doubling port density. According to the SFD-DD MSA website: "Network equipment based on the SFP-DD will support legacy SFP modules and cables, and new double density products." SFP-DD uses two lanes to transmit. Currently, the following speeds are defined: • SFP112: using PAM4 on a single pair (not double density) • SFP-DD: using PAM4 and using NRZ • QSFP-DD: / (8 × and 8 × ) • QSFP-DD800 (formerly QSFP-DD112): (8 × ) == QSFP ==