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The small form-factor pluggable (SFP) is a compact, hot-pluggable optical module transceiver used for both telecommunication and data communications applications. The form factor and electrical interface are specified by a multi-source agreement (MSA) under the auspices of the Small Form Factor Committee. It is a popular industry format jointly developed and supported by many network component vendors.

An SFP interface on networking hardware provides the device with a modular interface that the user can easily adapt to various fiber optic and copper networking standards. SFP transceivers exist supporting SONET, gigabit Ethernet, Fibre Channel, and other communications standards. Due to its smaller size, the SFP has replaced the gigabit interface converter (GBIC) in most applications; the SFP is sometimes referred to as a Mini-GBIC. In fact, no device with this name has ever been officially defined in the MSAs.


Video Small form-factor pluggable transceiver



Types

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 reach over the available optical fiber type (e.g. multi-mode fiber or single-mode fiber). Transceivers are most often designated by the standard transmission speed on the medium (e.g. 1.25 Gbit/s for Gigabit Ethernet or 10.3125 Gbit/s for 10 Gigabit Ethernet), but sometimes they are labeled with their nominal Ethernet speed or a higher speed the manufacturer specifies. SFP modules are commonly available in several different categories:

1 and 2.5 Gbit/s SFP

  • 1 to 2.5 Gbit/s multi-mode fiber, LC connector, with black or beige extraction lever
    • SX - 850 nm, for a maximum of 550 m at 1.25 Gbit/s (gigabit Ethernet) or 150m at 4.25 Gbit/s (Fibre Channel)
  • 1.25 Gbit/s multi-mode fiber, LC connector, extraction lever colors not standardised
    • SX+/MX/LSX (various manufacture names) - 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 2.5 Gbit/s single-mode fiber, LC connector, with blue extraction lever
    • LX - 1310 nm, for distances up to 10 km (originally, LX just covered 5 km and LX10 for 10 km followed later)
    • EX - 1310 nm, for distances up to 40 km
    • ZX - 1550 nm, for distances up to 80 km (depending on fiber path loss), with green extraction lever (see GLC-ZX-SM1)
    • EZX - 1550 nm, for distances up to 160 km (depending on fiber path loss)
    • BX (officially BX10) - 1490 nm/1310 nm, Single Fiber Bi-Directional Gigabit 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 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)
    • SFSW - Single Fiber Single Wavelength transceivers, for bi-directional traffic on a single fiber. Coupled with CWDM, these double the traffic density of fiber links.
    • CWDM and DWDM transceivers at various wavelengths achieving various maximum distances
  • 1 Gbit/s for copper twisted pair cabling, 8P8C (RJ-45) connector
    • 1000BASE-T - these modules incorporate significant interface circuitry for Physical Coding Sublayer recoding and can only be used for gigabit Ethernet because of the specific line code. They are not compatible with (or rather: do not have equivalents for) Fiber channel or SONET. Unlike non-SFP, copper 1000BASE-T ports integrated into most routers and switches, 1000BASE-T SFPs usually cannot operate at 100BASE-TX speeds.
  • 100 Mbit/s copper and optical - some vendors have shipped 100 Mbit/s 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 1 Gbit/s SFPs.

10 Gbit/s SFP+

The enhanced small form-factor pluggable (SFP+) 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 published on July 6, 2009. SFP+ supports 8 Gbit/s Fibre Channel, 10 Gigabit Ethernet and Optical Transport Network standard OTU2. It is a popular industry format supported by many network component vendors.

10 Gbit/s 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 linecards.

Although the SFP+ standard does not include mention of 16G Fibre Channel it can be used at this speed. Besides the data rate, the big difference between 8G Fibre Channel and 16G Fibre Channel is the encoding method. 64b/66b encoding used for 16G is a more efficient encoding mechanism than 8b/10b used for 8G, and allows for the data rate to double without doubling the line rate. The result is the 14.025 Gbit/s line rate for 16G Fibre Channel.

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.

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.

SFP+ also introduces Direct Attach for connecting two SFP+ ports without dedicated transceivers.

25 Gbit/s SFP28

SFP28 is a 25 Gbit/s interface which has evolved from 100 Gigabit Ethernet, which is typically implemented with 4 × 25 Gbit/s data lanes. Identical in mechanical dimensions to SFP and SFP+, SFP28 implements one 28 Gbit/s lane (25 Gbit/s + error correction) for top-of-rack switch to server connectivity. SFP28 may also be used to "break out" a single 100GbE port in a top-of-rack switch into four 25 Gbit/s individual server connections. SFP28 functions with both optical and copper interconnects.

For very short distances of 5 meters or less, as with 10 Gbit/s SFP+ "direct attach" cables, passive copper SFP28 modules integrate cable and transceivers into a single fixed-configuration module.

25 Gbit/s interfaces are also implemented using the QSFP transceiver form factor.

  • 25 Gbit/s copper
    • Direct attach cables, 1 to 5 meters in length.
  • 25 Gbit/s fiber
    • 850 nm SR using two strands of multimode fiber, distances up to 100 meters on OM4 grade multimode cable.
    • 1310 nm LR using two strands of singlemode fiber, distances from 5 to 20 km depending on optical link budget.

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.


Maps Small form-factor pluggable transceiver



Compatibility

Vendor specific modules

Many manufacturers restrict their devices to accept only original SFP modules of the same brand, as identified by their vendor ID. Due to sometimes significant price differences between original and generic modules, there is a large market of "compatible" or "third party" modules that are programmed to show the appropriate vendor ID.

SFP/SFP+

It is possible to design an SFP+ slot that can accept a standard SFP module. Some routing and Ethernet switch equipment allows for the use of a 10 Gbit/s transceiver at lower gigabit ethernet speed, such as with a 1 Gbit/s 1310 nm LX SFP.


Small Form Factor Pluggable Huawei SFP Module Transceiver Network ...
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Applications

SFP sockets are found in Ethernet switches, routers, firewalls and network interface cards. Storage interface cards, also called HBAs or Fibre Channel storage switches, also make use of these modules, supporting different speeds such as 2Gb, 4Gb, and 8Gb. Because of their low cost, low profile, and ability to provide a connection to different types of optical fiber, SFP provides such equipment with enhanced flexibility.


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Standardization

The SFP transceiver is not standardized by any official standards body, but rather is specified by a multi-source agreement (MSA) among competing manufacturers. The SFP was designed after the GBIC interface, and allows greater port density (number of transceivers per cm along the edge of a mother board) than the GBIC, which is why SFP is also known as mini-GBIC. The related Small Form Factor transceiver is similar in size to the SFP, but is soldered to the host board as a through-hole device, rather than plugged into an edge-card socket.

However, as a practical matter, some networking equipment manufacturers engage in vendor lock-in practices whereby they deliberately break compatibility with "generic" SFPs by adding a check in the device's firmware that will enable only the vendor's own modules. Third-party SFP manufacturers have introduced SFPs with "blank" programmable EEPROMs which may be reprogrammed to match any vendor ID.


Bi - Di Gigabit Ethernet Transceiver , Small Form-Factor Pluggable ...
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Signals

The front of the SFP features a duplex LC connector; one connection for transmit and the other for receive.

The SFP transceiver contains a PCB that mates on the rear with the SFP electrical connector in the host system.


LR4 Loopback Small Form Factor Pluggable Transceiver CWDM wave
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Mechanical dimensions

The physical dimensions of the SFP transceiver are slightly smaller than the later XFP transceiver.

Although it is not mentioned in any official specification document the maximum data rate of the original SFP standard is 5 Gbit/s.


Mini-GBIC SFP & SFP+ Transceivers | Transmission Solutions ...
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EEPROM information

The SFP MSA defines a 256-byte memory map into an EEPROM describing the transceiver's capabilities, standard interfaces, manufacturer, and other information, which is accessible over an I²C interface at the 8-bit address 1010000X (A0h).


CFP Multi-Source Agreement
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Digital diagnostics monitoring

Modern optical SFP transceivers support standard digital diagnostics monitoring (DDM) functions. This feature is also known as digital optical monitoring (DOM). Modules with this capability enable the end user to monitor parameters of the SFP, such as optical output power, optical input power, temperature, laser bias current, and transceiver supply voltage, in real time. This functionality is commonly implemented for monitoring on routers, switches and optical transport equipment via SNMP.

A DDM interface allows end users to display diagnostics data and alarms for fiber optical transceivers and can be used to diagnose why a transceiver optics is not working, increasing popularity of transceiver optics with DDM. Generally, the transceiver vendor sets the thresholds that trigger a high alarm, low alarm, high warning, or low warning before shipment. In order to be able to take advantage of DDM/DOM capability, most of the modern pluggable transceiver optics support DDM/DOM interfaces.


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See also

  • Interconnect bottleneck
  • Optical communication
  • Optical fiber cable
  • Optical interconnect
  • Parallel optical interface
  • Quad Small Form Factor Pluggable
  • Serial digital interface



References

Source of the article : Wikipedia

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