SFP, SFP+ or QSFP are all types of transceivers used to connect a switch or other network device to copper or fibre cable. They are most commonly used to add fiber ports. Which SFP transceiver you choose depends on the cable type, application, required optical range for the network and the desired data transmission rate.
An SFP, or small form-factor pluggable, is a compact, hot-swappable transceiver designed to support 100/1000Mbps Ethernet, Fibre Channel and SONET, among other communication standards. SFP transceivers support speeds up to 4.25Gbps and are commonly used in telecommunications and data communications applications. SFP ports are found in a range of devices, from Ethernet switches to routers, NIC cards and firewalls. Small form-factor pluggable specification is based on IEEE802.3 and SFF-8472.
SFP and SFP+ transceivers are virtually identical in size and appearance. The primary difference is that SFP+ is an updated version that supports higher speeds up to 10Gbps. The difference in data rate also accounts for a difference in transmission distance—SFP typically has a longer transmission distance. SFP+ specifications are based on SFF-8431. In terms of SFP vs SFP+ compatibility, SFP+ ports often accept SFP optics but at a reduced speed of 1Gbps. Be aware, however, that you cannot plug an SFP+ transceiver into an SFP port because SFP+ does not support speeds less than 1Gbps.
Prior to SFP and SFP+, the most common transceivers were gigabit interface converters or GBICs. SFP, sometimes called mini-GBIC, replaces GBIC because of its smaller size.
QSFP, or quad small form-factor pluggable, is another type of compact, hot-swappable transceiver. It supports Ethernet, Fiber Channel, InfiniBand and SONET/SDH standards with different data rate options. QSFP modules are commonly available in several different types: 4x1Gbps QSFP, 4x10Gbps QSFP+, 4x28Gbps QSFP28.
QSFP+ and QSFP28 are the most recent versions, which support numerous 40Gbps and 100Gbps applications. Both QSFP+ and QSFP28 modules integrate 4 transmit and 4 receiver channels. While QSFP+ supports 4x10Gbps or 1x40Gbps, QSFP28 can do 4x25Gbps, 2x50Gbps or 1x100Gbps, depending on the transceiver used. The specifications for QSFP are based on SFF-8436.
In addition to SFP vs SFP+ vs QSFP, you’ll also need to consider the application. SFP transceivers are available in different types depending on what they will be used for, for example, single-mode vs multimode SFP. Single-mode SFP transceivers work with single-mode fiber, whereas multimode SFPs are compatible with multimode fiber. Additionally, there are long-reach WDM SFP transceivers for multiplexing, simplex SFPs for single fiber applications, video SFP transceivers for transmission of high-definition video, and PON SFP transceivers for fiber-based access networks. SFPs are available in commercial and extended operating temperature ranges, with or without extended diagnostics capabilities.
Small form-factor pluggable specifications are published in the SFP Multi-Source Agreement, which enables you to mix and match components from different vendors. However, some IT equipment manufacturers sell network devices that support only vendor-specific SFPs. To ensure compatibility, review the vendor’s optics testing centeror ask your vendor to verify compatibility.
Need help choosing between SFP vs SFP+ QSFP? Contact Black Box for expert advice on transceivers for your network.