IEEE 802.3is aworking groupand a collection of standards defining thephysical layeranddata link layer'smedia access control(MAC) of wiredEthernet.The standards are produced by the working group ofInstitute of Electrical and Electronics Engineers(IEEE). This is generally alocal area network(LAN) technology with somewide area network(WAN) applications. Physical connections are made between nodes and/or infrastructure devices (hubs,switches,routers) by various types of copper orfiber cable.
802.3 is a technology that supports theIEEE 802.1network architecture.
802.3 also defines a LAN access method usingCSMA/CD.
Communication standards
edit| Ethernet standard | IEEE approval date | Description |
|---|---|---|
| Experimental Ethernet |
1973[a][1] | 2.94Mbit/s(367kB/s) overcoaxial cable(coax)bus.Single-octet node address unique only to individual network. |
| Ethernet I (DIX v1.0) |
1980-09[b] | 10 Mbit/s (1.25MB/s) over thick coax. Frames have a Type field. This frame format is used on all forms of Ethernet by protocols in theInternet protocol suite.Six-octetMAC address. |
| Ethernet II (DIX v2.0) |
1982-11[b] | |
| 802.3-1985 | 1983-06 | 10BASE510 Mbit/s (1.25 MB/s) over thick coax. First edition of the IEEE 802.3 standard. Approved by IEEE in 1983, approved by ANSI in 1984, and published in 1985. Same as Ethernet II (above) except Type field is replaced by Length, and an802.2LLC header follows the 802.3 header. Based on theCSMA/CDmedia access method. |
| 802.3a | 1985-11 | 10BASE210 Mbit/s (1.25 MB/s) over thin Coax (a.k.a. thinnet or cheapernet) |
| 802.3b | 1985-09 | 10BROAD36 |
| 802.3c | 1985-12 | 10 Mbit/s (1.25 MB/s) repeater specs |
| 802.3d | 1987-12 | Fiber-optic inter-repeater link |
| 802.3e | 1987-06 | 1BASE5orStarLAN,first use of (voice-grade)twisted paircabling, 1 Mbit/s, maximum reach of 250 to 500 m |
| 802.3h | 1990-09 | 10 Mbit/s layer management, DTEs |
| 802.3i | 1990-09 | 10BASE-T10 Mbit/s (1.25 MB/s) over twisted pair |
| 802.3j | 1992-09 | 10BASE-F10 Mbit/s (1.25 MB/s) overoptical fiber |
| 802.3k | 1992-09 | 10 Mbit/s layer management, repeaters |
| 802.3m | 1995-09 | Maintenance |
| 802.3n | 1995-09 | Maintenance |
| 802.3q | 1993-06 | GDMO(ISO/IEC 10165-4) format for Layer Managed Objects |
| 802.3r | 1996-07 | 10BASE5 Medium Attachment Unit PICS |
| 802.3s | 1995-09 | Maintenance |
| 802.3t | 1995-06 | 120 Ω informative annex for 10BASE-T |
| 802.3u | 1995-06 | 100BASE-TX,100BASE-T4,100BASE-FXFast Ethernet at 100 Mbit/s (12.5 MB/s) withautonegotiation |
| 802.3v | 1995-12 | 150 Ω informative annex for 10BASE-T |
| 802.3x | 1997-03 | Full Duplex andflow control;also incorporates DIX framing, so there's no longer a DIX/802.3 split |
| 802.3y | 1997-03 | 100BASE-T2100 Mbit/s (12.5 MB/s) over voice-grade twisted pair |
| 802.3z | 1998-06 | 1000BASE-XGbit/s Ethernet over optical fiber at 1 Gbit/s (125 MB/s) |
| 802.3-1998 | 1998-06 | (802.3aa) A revision of base standard incorporating the above amendments and errata |
| 802.3ab | 1999-06 | 1000BASE-TGbit/s Ethernet over twisted pair at 1 Gbit/s (125 MB/s) |
| 802.3ac | 1998-09 | Max frame size extended to 1522 bytes (to allow "Q-tag" ) The Q-tag includes802.1QVLANinformation and802.1ppriority information. |
| 802.3ad | 2000-03 | Link aggregationfor parallel links, since moved toIEEE 802.1AX |
| 802.3-2002 | 2002-01 | (802.3ag) A revision of base standard incorporating the three prior amendments and errata |
| 802.3ae | 2002-06 | 10 Gigabit Ethernetover fiber; 10GBASE-SR, 10GBASE-LR, 10GBASE-ER, 10GBASE-SW, 10GBASE-LW, 10GBASE-EW |
| 802.3af | 2003-06 | Power over Ethernet(15.4 W) |
| 802.3ah | 2004-06 | Ethernet in the First Mile |
| 802.3ak | 2004-02 | 10GBASE-CX410 Gbit/s (1,250 MB/s) Ethernet overtwinaxial cables |
| 802.3-2005 | 2005-06 | (802.3am) A revision of base standard incorporating the four prior amendments and errata. |
| 802.3an | 2006-06 | 10GBASE-T10 Gbit/s (1,250 MB/s) Ethernet over unshielded twisted pair (UTP) |
| 802.3ap | 2007-03 | BackplaneEthernet (1 and 10 Gbit/s (125 and 1,250 MB/s) overprinted circuit boards) |
| 802.3aq | 2006-09 | 10GBASE-LRM10 Gbit/s (1,250 MB/s) Ethernet over multimode fiber |
| P802.3ar | canceled | Congestion management (withdrawn) |
| 802.3as | 2006-09 | Frame expansion |
| 802.3at | 2009-09 | Power over Ethernetenhancements (25.5 W) |
| 802.3au | 2006-06 | Isolation requirements for Power over Ethernet (802.3-2005/Cor 1) |
| 802.3av | 2009-09 | 10 Gbit/sEPON |
| 802.3aw | 2007-06 | Fixed an equation in the publication of 10GBASE-T (released as 802.3-2005/Cor 2) |
| 802.3ax | 2008-11 | Link aggregation – moved to and approved as802.1AX |
| 802.3-2008 | 2008-12 | (802.3ay) A revision of base standard incorporating the 802.3an/ap/aq/as amendments, two corrigenda and errata. |
| 802.3az | 2010-09 | Energy-Efficient Ethernet |
| 802.3ba | 2010-06 | 40 Gbit/s and 100 Gbit/s Ethernet. 40 Gbit/s over 1 m backplane, 10 m Cu cable assembly (4×25 Gbit or 10×10 Gbit lanes) and 100 m ofMMFand 100 Gbit/s up to 10 m of Cu cable assembly, 100 m ofMMFor 40 km ofSMFrespectively |
| 802.3-2008/Cor 1 | 2009-12 | (802.3bb) Increase Pause Reaction Delay timings which are insufficient for 10 Gbit/s (workgroup name was 802.3bb) |
| 802.3bc | 2009-09 | Move and update Ethernet related TLVs (type, length, values), previously specified in Annex F ofIEEE 802.1AB(LLDP) to 802.3. |
| 802.3bd | 2011-06 | Priority-based Flow Control. An amendment by theIEEE 802.1Data Center BridgingTask Group (802.1Qbb) to develop an amendment to IEEE Std 802.3 to add a MAC Control Frame to support IEEE 802.1Qbb Priority-based Flow Control. |
| 802.3.1 | 2011-05 | (802.3be) MIB definitions for Ethernet. It consolidates the Ethernet relatedMIBspresent in Annex 30A&B, variousIETFRFCs,and 802.1AB annex F into one master document with a machine readable extract. (workgroup name was P802.3be) |
| 802.3bf | 2011-05 | Provide an accurate indication of the transmission and reception initiation times of certain packets as required to support IEEE P802.1AS. |
| 802.3bg | 2011-03 | Provide a 40 Gbit/sPMDwhich is optically compatible with existing carrierSMF40 Gbit/s client interfaces (OTU3/STM-256/OC-768/40G POS). |
| 802.3-2012 | 2012-08 | (802.3bh) A revision of base standard incorporating the 802.3at/av/az/ba/bc/bd/bf/bg amendments, a corrigenda and errata. |
| 802.3bj | 2014-06 | Define a 4-lane 100 Gbit/s backplane PHY for operation over links consistent with copper traces on "improved FR-4" (as defined by IEEE P802.3ap or better materials to be defined by the Task Force) with lengths up to at least 1 m and a 4-lane 100 Gbit/s PHY for operation over links consistent with coppertwinaxial cableswith lengths up to at least 5 m. |
| 802.3bk | 2013-08 | This amendment to IEEE Std 802.3 defines the physical layer specifications and management parameters for EPON operation on point-to-multipoint passive optical networks supporting extended power budget classes of PX30, PX40, PRX40, and PR40 PMDs. |
| 802.3bm | 2015-02 | 100G/40G Ethernetfor optical fiber |
| 802.3bn | 2016-09 | 10G-EPONand 10GPASS-XR, passive optical networks over coax |
| 802.3bp | 2016-06[2] | 1000BASE-T1– Gigabit Ethernet over a single twisted pair, automotive & industrial environments |
| 802.3bq | 2016-06[3] | 25GBASE-T/40GBASE-TEthernet for 4-pair balanced twisted pair cabling with 2 connectors over 30 m distances |
| 802.3br | 2016-06 | Specification and Management Parameters for Interspersing Express Traffic |
| 802.3bs | 2017-12 | 200GbE(200 Gbit/s) over single-mode fiber and400GbE(400 Gbit/s) over optical physical media |
| 802.3bt | 2018-09 | Third generationPower over Ethernetwith up to 100 W using all 4 pairs balanced twisted pair cabling (4PPoE), including 10GBASE-T, lower standby power and specific enhancements to support IoT applications (e.g. lighting, sensors, building automation). |
| 802.3bu | 2016-12 | Power over Data Lines (PoDL)for single twisted pair Ethernet (100BASE-T1) |
| 802.3bv | 2017-02 | Gigabit Ethernet overplastic optical fiber (POF) |
| 802.3bw | 2015-10[4] | 100BASE-T1– 100 Mbit/s Ethernet over a single twisted pair for automotive applications |
| 802.3-2015 | 2015-09 | 802.3bx – a new consolidated revision of the 802.3 standard including amendments 802.3bk/bj/bm |
| 802.3by | 2016-06[5] | Optical fiber,twinax and backplane25 Gigabit Ethernet[6] |
| 802.3bz | 2016-09[7] | 2.5GBASE-T and 5GBASE-T– 2.5 Gigabit and 5 Gigabit Ethernet overCat-5e/Cat-6twisted pair |
| 802.3ca | 2020-06 | 25G-EPON and 50G-EPON – Downstream/Upstream rates of 25/10, 25/25, 50/10, 50/25, 50/50 Gbit/s overEthernetPassive Optical Networks |
| 802.3cb | 2018-09 | 2.5 Gbit/s and 5 Gbit/s Operation over Backplane |
| 802.3cc | 2017-12 | 25 Gbit/s over Single Mode Fiber |
| 802.3cd | 2018-12 | Media Access Control Parameters for 50 Gbit/s and Physical Layers and Management Parameters for 50, 100, and 200 Gbit/s Operation |
| 802.3ce | 2017-03 | Multilane Timestamping |
| 802.3.2-2019 | 2019-03 | 802.3cf, YANG Data Model Definitions |
| 802.3cg | 2019-11 | 10BASE-T1Land10BASE-T1S– 10 Mbit/s Single twisted pair Ethernet |
| 802.3ch | 2020-06 | MultiGigBASE-T1Automotive Ethernet (2.5, 5, 10 Gbit/s) over 15 m with optional PoDL |
| 802.3-2018 | 2018-08 | 802.3cj – 802.3-2015 maintenance, merge recent amendments bn/bp/bq/br/bs/bu/bv/bw/by/bz/cc/ce |
| 802.3ck | 2022-09 | 100, 200, and 400 Gbit/s Ethernet using 100 Gbit/s lanes, chaired by Beth Kochuparambil[8] |
| 802.3cm | 2020-01 | 400 Gbit/s over multimode fiber (four and eight pairs, 100 m) |
| 802.3cn | 2019-11 | 50 Gbit/s (40 km), 100 Gbit/s (80 km), 200 Gbit/s (four λ, 40 km), and 400 Gbit/s (eight λ, 40 km and single λ, 80 km overDWDM) over Single-Mode Fiber and DWDM |
| 802.3cp | 2021-06 | 10/25/50 Gbit/s single-strand optical access with at least 10/20/40 km reach, chaired byFrank Effenberger[8] |
| 802.3cq | 2020-01 | Power over Ethernet over 2 pairs (maintenance) |
| 802.3cr | 2021-02 | Isolation (maintenance) |
| 802.3cs | 2022-09 | "Super-PON" – increased-reach, 10 Gbit/s optical access with at least 50 km reach and 1:64 split ratio per wavelength pair, 16 wavelength pairs, chaired by Claudio DeSanti[8] |
| 802.3ct | 2021-06 | 100 Gbit/s over DWDM systems (80 km reach using coherent modulation), chaired by John D'Ambrosia[8] |
| 802.3cu | 2021-02 | 100 Gbit/s and 400 Gbit/s over SMF using 100 Gbit/s lanes |
| 802.3cv | 2021-05 | Power over Ethernet maintenance, chaired by Chad Jones[8] |
| 802.3cw | canceled | 400 Gbit/s over DWDM Systems – chaired by John D'Ambrosia,[8]withdrawn |
| 802.3cx | 2023-03 | ImprovedPTPtimestamping accuracy, chaired by Steve Gorshe[8] |
| 802.3cy | 2023-06 | MultiGigBASE-T125 Gbit/s electrical automotive Ethernet,[9]chaired by Steve Carlson[8] |
| 802.3cz | 2023-03 | Multi-gigabit optical automotive Ethernet, chaired by Bob Grow[8] |
| 802.3da | (TBD) | 10BASE-T1S10 Mb/s operation over single balanced pair multidrop segments, extended length up to 50 m – scheduled for mid 2025, chaired by Chad Jones[8] |
| 802.3db | 2022-09 | 100 Gbit/s, 200 Gbit/s, and 400 Gbit/s operation over optical fiber using 100 Gbit/s Signaling, chaired by Robert Lingle[8] |
| 802.3-2022 | 2022-07 | 802.3dc – 802.3-2018 maintenance, merge recent amendments bt/ca/cb/cd/cg/ch/cm/cn/cp/cq/cr/ct/cu/cv, chaired by Adam Healey[8] |
| 802.3dd | 2022-06 | Power over Data Lines of single-pair Ethernet maintenance, chaired by George Zimmerman[8] |
| 802.3de | 2022-09 | Time synchronization for point-to-point single-pair Ethernet, chaired by George Zimmerman |
| 802.3df | 2024-02 | 200 Gb/s, 400 Gb/s and 800 Gb/s using 100 Gbit/s lanes, chaired by John D’Ambrosia |
| 802.3dg | (TBD) | 100BASE-T1L(100 Mbps single pair with extended length to 500 m) – scheduled for mid 2025, chaired by George Zimmerman |
| 802.3dh | canceled | Multi-gigabit automotive Ethernet over plastic optical fiber, chaired by Yuji Watanabe |
| 802.3dj | (TBD) | 200 Gb/s, 400 Gb/s, 800 Gb/s and 1.6 Tbit/s using 200 Gbit/s lanes – scheduled for spring 2026, chaired by John D'Ambrosia |
| 802.3dk | (TBD) | Greater than 50 Gbit/s bidirectional optical access, chaired by Yuanqiu Luo |
| 802.3dm | (TBD) | Asymmetrical Electrical Automotive Ethernet, chaired by Jon Lewis |
| 802.3dn | (TBD) | 802.3-2022/Cor 1 Multi-Gigabit Automotive MDI Return Loss, chaired by Brett McClellan |
- ^developed atXerox PARC
- ^abpublished by DEC, Intel, Xerox PARC
See also
edit- IEEE 802
- IEEE 802.11,a set ofwireless networkingstandards
- IEEE 802.16,a set ofWiMAXstandards
- IEEE Standards Association
References
edit- ^"Ethernet Prototype Circuit Board".Smithsonian National Museum of American History.Retrieved2014-10-31.
- ^"IEEE P802.3bp 1000BASE-T1 PHY Task Force".2016-07-29.Retrieved2016-10-02.
- ^"Approval of IEEE Std 802.3by-2016, IEEE Std 802.3bq-2016, IEEE Std 802.3bp-2016 and IEEE Std 802.3br-2016".IEEE. 2016-06-30..
- ^"IEEE P802.3bw 100BASE-T1 Task Force".2015-10-27.
The work of the IEEE P802.3bw 100BASE-T1 Task Force completed with the approval of IEEE Std 802.3bw-2015 by the IEEE-SA Standards Board on 27 October 2015.
- ^"[STDS-802-3-25G] IEEE Std 802.3by-2016 Standard Approved!".2016-06-30.
- ^P802.3by 25 Gbit/s Ethernet Task Force,IEEE.
- ^"[802.3_NGBASET] FW: Approval of IEEE Std 802.3bz 2.5GBASE-T and 5GBASE-T".IEEE P802.3bz Task Force.Retrieved2016-09-24.
- ^abcdefghijklm"IEEE 802.3 Ethernet Task Force, Study Group, and Ad Hoc Officers".IEEE. 30 April 2021.Retrieved2021-05-26.
- ^"Physical Layer Specifications and Management Parameters for 25 Gb/s - Electrical Automotive Ethernet".IEEE. 2023-08-11. Archived fromthe originalon 2023-09-01.Retrieved2023-09-01.
External links
edit- The IEEE 802.3 Working Group
- Get IEEE 802.3 LAN/MAN CSMA/CD Access Method—Download 802.3 specifications.