Wikipedia

Wi-Fi 7

(Redirected fromIEEE 802.11be)
Not to be confused withIEEE 802.11b.

IEEE 802.11be,dubbedExtremely High Throughput (EHT),is awireless networkingstandard in theIEEE802.11set of protocols[9][10]which is designatedWi-Fi 7by theWi-Fi Alliance.[11][12][13]It has built upon802.11ax,focusing onWLANindoor and outdoor operation with stationary and pedestrian speeds in the 2.4, 5, and 6GHzfrequency bands.[14]

Logo used by theWi-Fi Alliancefor Wi-Fi 7
Wi-Figenerations
Generation Visual IEEE
standard 		Adopted Maximum
link rate
(Mbit/s) 		Radio
frequency
(GHz)
Wi-Fi 0[a] 802.11 1997 1–2 2.4
Wi-Fi 1[a] 802.11b 1999 1–11 2.4
Wi-Fi 2[a] 802.11a 1999 6–54 5
Wi-Fi 3[a] 802.11g 2003 2.4
Wi-Fi 4 802.11n 2009 6.5–600 2.4, 5
Wi-Fi 5 802.11ac 2013 6.5–6933 5[b]
Wi-Fi 6[4] 802.11ax 2021 0.4–9608 2.4, 5
Wi-Fi 6E 2.4, 5, 6[c]
Wi-Fi 7[5] 802.11be 2024[d] 0.4–23,059 2.4, 5, 6
Wi-Fi 8[6][7][8] 802.11bn 2028 100,000 2.4, 5, 6

Throughputis believed to reach a theoretical maximum of 46 Gbit/s, although actual results are much lower.[15]

Development of the 802.11be amendment is ongoing, with an initial draft in March 2021, and a final version expected by the end of 2024.[12][16][17]Despite this, numerous products were announced in 2022 based ondraft standards,with retail availability in early 2023. On 8 January 2024, the Wi-Fi Alliance introduced itsWi-Fi Certified 7program to certify Wi-Fi 7 devices. While final ratification is not expected until the end of 2024, the technical requirements are essentially complete,[15]and as of February 2024there are already products labeled asWi‑Fi 7.[18][19][20]

The global Wi-Fi 7 market was estimated at US$1 billion in 2023, and is projected to reach US$24.2 billion by 2030.[21]

Core features

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The following are core features that have been approved as of Draft 3.0:

  • 4096-QAM(4K-QAM) enables each symbol to carry 12 bits rather than 10 bits, resulting in 20% higher theoretical transmission rates than WiFi 6's 1024-QAM.
  • Contiguous and non-contiguous 320/160+160 MHz and 240/160+80 MHz bandwidth
  • Multi-Link Operation (MLO), a feature that increases capacity by simultaneously sending and receiving data across different frequency bands and channels. (2.4 GHz, 5 GHz, 6 GHz)[22]
  • 16 spatial streams and Multiple Input Multiple Output (MIMO) protocol enhancements[22]
  • Flexible Channel Utilization – Interference currently can negate an entire Wi-Fi channel. With preamble puncturing, a portion of the channel that is affected by interference can be blocked off while continuing to use the rest of the channel.

Candidate features

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The main candidate features mentioned in the 802.11be Project Authorization Request (PAR) are:[23]

  • Multi-Access Point (AP) Coordination (e.g. coordinated and joint transmission),
  • Enhanced link adaptation and retransmission protocol (e.g. Hybrid Automatic Repeat Request (HARQ)),
  • If needed, adaptation to regulatory rules specific to 6 GHz spectrum,
  • IntegratingTime-Sensitive Networking(TSN)IEEE 802.1Qextensions for low-latency real-time traffic:[24][25][26]
    • IEEE 802.1AStiming and synchronization
    • IEEE 802.11aa MAC Enhancements for Robust Audio Video Streaming (Stream Reservation Protocolover IEEE 802.11)
    • IEEE 802.11ak Enhancements for Transit Links Within Bridged Networks (802.11 links in 802.1Q networks)
    • Bounded latency: credit-based (IEEE 802.1Qav) and cyclic/time-aware traffic shaping (IEEE 802.1Qch/Qbv), asynchronous traffic scheduling (IEEE 802.1Qcr-2020)
    • IEEE 802.11ax Scheduled Operation extensions for reduced jitter/latency

Additional features

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Apart from the features mentioned in the PAR, there are newly introduced features:[27]

  • Newly introduced 4096-QAM(4K-QAM),
  • Contiguous and non-contiguous 320/160+160 MHz and 240/160+80 MHz bandwidth,
  • Frame formats with improved forward-compatibility,
  • Enhanced resource allocation inOFDMA,
  • Optimizedchannel soundingthat requires less airtime,
  • Implicit channel sounding,
  • More flexible preamble puncturing scheme,
  • Support of direct links, managed by an access point.

Rate set

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Modulation and coding schemes
MCS index[i] Modulation type Coding rate Data rate (Mbit/s)[ii]
20 MHz channels 40 MHz channels 80 MHz channels 160 MHz channels 320 MHz channels
3200 ns GI[iii] 1600 ns GI 800 ns GI 3200 ns GI 1600 ns GI 800 ns GI 3200 ns GI 1600 ns GI 800 ns GI 3200 ns GI 1600 ns GI 800 ns GI 3200 ns GI 1600 ns GI 800 ns GI
0 BPSK 1/2 7 8 9 15 16 17 31 34 36 61 68 72 123 136 144
1 QPSK 1/2 15 16 17 29 33 34 61 68 72 122 136 144 245 272 288
2 QPSK 3/4 22 24 26 44 49 52 92 102 108 184 204 216 368 408 432
3 16-QAM 1/2 29 33 34 59 65 69 123 136 144 245 272 282 490 544 577
4 16-QAM 3/4 44 49 52 88 98 103 184 204 216 368 408 432 735 817 865
5 64-QAM 2/3 59 65 69 117 130 138 245 272 288 490 544 576 980 1089 1153
6 64-QAM 3/4 66 73 77 132 146 155 276 306 324 551 613 649 1103 1225 1297
7 64-QAM 5/6 73 81 86 146 163 172 306 340 360 613 681 721 1225 1361 1441
8 256-QAM 3/4 88 98 103 176 195 207 368 408 432 735 817 865 1470 1633 1729
9 256-QAM 5/6 98 108 115 195 217 229 408 453 480 817 907 961 1633 1815 1922
10 1024-QAM 3/4 110 122 129 219 244 258 459 510 540 919 1021 1081 1838 2042 2162
11 1024-QAM 5/6 122 135 143 244 271 287 510 567 600 1021 1134 1201 2042 2269 2402
12 4096-QAM 3/4 131 146 155 263 293 310 551 613 649 1103 1225 1297 2205 2450 2594
13 4096-QAM 5/6 146 163 172 293 325 344 613 681 721 1225 1361 1441 2450 2722 2882
14 BPSK-DCM-DUP 1/2 7 8 9 15 17 18 31 34 36
15 BPSK-DCM 1/2 4 4 4 7 8 9 15 17 18 31 34 36 61 68 72

Comparison

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802.11network standards
Frequency
range,
or type 		PHY Protocol Release
date[28] 		Freq­uency Bandwidth Stream
data rate[29] 		Max.
MIMOstreams 		Modulation Approx.range
In­door Out­door
(GHz) (MHz) (Mbit/s)
1–7GHz DSSS[30],FHSS[A] 802.11-1997 June 1997 2.4 22 1, 2 DSSS,FHSS[A] 20 m (66 ft) 100 m (330 ft)
HR/DSSS[30] 802.11b September 1999 2.4 22 1, 2, 5.5, 11 CCK,DSSS 35 m (115 ft) 140 m (460 ft)
OFDM 802.11a September 1999 5 5, 10, 20 6, 9, 12, 18, 24, 36, 48, 54
(for 20MHz bandwidth,
divide by 2 and 4 for 10 and 5MHz) 		OFDM 35 m (115 ft) 120 m (390 ft)
802.11j November 2004 4.9, 5.0
[B][31] 		? ?
802.11y November 2008 3.7[C] ? 5,000 m (16,000 ft)[C]
802.11p July 2010 5.9 200 m 1,000 m (3,300 ft)[32]
802.11bd December 2022 5.9, 60 500 m 1,000 m (3,300 ft)
ERP-OFDM[33] 802.11g June 2003 2.4 38 m (125 ft) 140 m (460 ft)
HT-OFDM[34] 802.11n
(Wi-Fi 4) 		October 2009 2.4, 5 20 Up to 288.8[D] 4 MIMO-OFDM
(64-QAM) 		70 m (230 ft) 250 m (820 ft)[35]
40 Up to 600[D]
VHT-OFDM[34] 802.11ac
(Wi-Fi 5) 		December 2013 5 20 Up to 693[D] 8 DL
MU-MIMOOFDM
(256-QAM) 		35 m (115 ft)[36] ?
40 Up to 1600[D]
80 Up to 3467[D]
160 Up to 6933[D]
HE-OFDMA 802.11ax
(Wi-Fi 6,
Wi-Fi 6E) 		May 2021 2.4, 5, 6 20 Up to 1147[E] 8 UL/DL
MU-MIMOOFDMA
(1024-QAM) 		30 m (98 ft) 120 m (390 ft)[F]
40 Up to 2294[E]
80 Up to 5.5Gbit/s[E]
80+80 Up to 11.0Gbit/s[E]
EHT-OFDMA 802.11be
(Wi-Fi 7) 		Sep 2024
(est.) 		2.4, 5, 6 80 Up to 11.5Gbit/s[E] 16 UL/DL
MU-MIMOOFDMA
(4096-QAM) 		30 m (98 ft) 120 m (390 ft)[F]
160
(80+80) 		Up to 23Gbit/s[E]
240
(160+80) 		Up to 35Gbit/s[E]
320
(160+160) 		Up to 46.1Gbit/s[E]
UHR 802.11bn
(Wi-Fi 8) 		May 2028
(est.) 		2.4, 5, 6,
42, 60, 71 		320 Up to
100000
(100Gbit/s) 		16 Multi-link
MU-MIMOOFDM
(8192-QAM) 		? ?
WUR[G] 802.11ba October 2021 2.4, 5 4, 20 0.0625, 0.25
(62.5kbit/s, 250kbit/s) 		OOK(multi-carrier OOK) ? ?
mmWave
(WiGig) 		DMG[37] 802.11ad December 2012 60 2160
(2.16GHz) 		Up to 8085[38]
(8Gbit/s) 		OFDM,[A]singlecarrier, low-power single carrier[A] 3.3 m (11 ft)[39] ?
802.11aj April 2018 60[H] 1080[40] Up to 3754
(3.75Gbit/s) 		singlecarrier, low-power single carrier[A] ? ?
CMMG 802.11aj April 2018 45[H] 540,
1080 		Up to 15015[41]
(15Gbit/s) 		4[42] OFDM,singlecarrier ? ?
EDMG[43] 802.11ay July 2021 60 Up to 8640
(8.64GHz) 		Up to 303336[44]
(303Gbit/s) 		8 OFDM,singlecarrier 10m (33ft) 100m (328ft)
Sub 1 GHz (IoT) TVHT[45] 802.11af February 2014 0.054–
0.79 		6, 7, 8 Up to 568.9[46] 4 MIMO-OFDM ? ?
S1G[45] 802.11ah May 2017 0.7, 0.8,
0.9 		1–16 Up to 8.67[47]
(@2MHz) 		4 ? ?
Light
(Li-Fi) 		LC
(VLC/OWC) 		802.11bb December 2023
(est.) 		800–1000 nm 20 Up to 9.6Gbit/s O-OFDM ? ?
IR[A]
(IrDA) 		802.11-1997 June 1997 850–900 nm ? 1, 2 PPM[A] ? ?
802.11 Standard rollups
802.11-2007 (802.11ma) March 2007 2.4, 5 Up to 54 DSSS,OFDM
802.11-2012 (802.11mb) March 2012 2.4, 5 Up to 150[D] DSSS,OFDM
802.11-2016 (802.11mc) December 2016 2.4, 5, 60 Up to 866.7 or 6757[D] DSSS,OFDM
802.11-2020 (802.11md) December 2020 2.4, 5, 60 Up to 866.7 or 6757[D] DSSS,OFDM
802.11me September 2024
(est.) 		2.4, 5, 6, 60 Up to 9608 or 303336 DSSS,OFDM
  1. ^abcdefgThis is obsolete, and support for this might be subject to removal in a future revision of the standard
  2. ^For Japanese regulation.
  3. ^abIEEE 802.11y-2008extended operation of 802.11a to the licensed 3.7 GHz band. Increased power limits allow a range up to 5,000 m. As of 2009,it is only being licensed in the United States by theFCC.
  4. ^abcdefghiBased on shortguard interval;standard guard interval is ~10% slower. Rates vary widely based on distance, obstructions, and interference.
  5. ^abcdefghFor single-user cases only, based on defaultguard intervalwhich is 0.8 microseconds. Since multi-user viaOFDMAhas become available for 802.11ax, these may decrease. Also, these theoretical values depend on the link distance, whether the link is line-of-sight or not, interferences and themulti-pathcomponents in the environment.
  6. ^abThe defaultguard intervalis 0.8 microseconds. However, 802.11ax extended the maximum availableguard intervalto 3.2 microseconds, in order to support Outdoor communications, where the maximum possible propagation delay is larger compared to Indoor environments.
  7. ^Wake-up Radio (WUR) Operation.
  8. ^abFor Chinese regulation.

802.11be Task Group

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The 802.11be Task Group is led by individuals affiliated with Qualcomm, Intel, and Broadcom. Those affiliated withHuawei,Maxlinear,NXP,andApplealso have senior positions.[17]

Commercial availability

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Qualcommannounced its FastConnect 7800 series on 28 Feb 2022 using 14 nm chips.[48][49]As of March 2023, the company claims 175 devices will be using their Wi-Fi 7 chips, including smartphones, routers, and access points.[50]

Broadcomfollowed on 12 April 2022 with a series of 5 chips covering home, commercial, and enterprise uses.[51]The company unveiled its second generation Wi-Fi 7 chips on 20 June 2023 featuring tri-band MLO support and lower costs.[52]

TheTP-LinkArcher BE900wireless routerwas available to consumers in April 2023.[53]The company's Deco BE95mesh networkingsystem was also available that month.Asus,Eero,LinksysandNetgearhad Wi-fi 7 wireless routers available by the end of 2023.

TheARRISSURFboard G54 is aDOCSIS3.1cable gatewayfeaturing Wi-Fi 7. It became available in October 2023.

Lumen'sQuantum Fiber W1700K and W1701K are WiFi 7 certified and provided with their 360 WiFi offering. It is the first device made for a major Telecommunications Provider that's certified for WiFi 7.[54]

Client devices

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Intel launched the BE200 and BE202 wireless adapters for desktop and laptop motherboards in September 2023.[63]

The Asus ROG Strix Z790 E II motherboard is among the first with built-in Wi-Fi 7.[64]

Software

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Android 13and higher provide support for Wi-Fi 7.[65]

TheLinux6.2 kernel provides support for Wi-Fi 7 devices.[66]The 6.4 kernel added Wi-Fi 7 mesh support.[67]Linux 6.5 included significant driver support by Intel engineers, particularly support for MLO.[68]

Support for Wi-Fi 7 was added toWindows 11,as of build 26063.1.[69][70]

Notes

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  1. ^MCS 9 is not applicable to all combinations of channel width and spatial stream count.
  2. ^Per spatial stream
  3. ^GIstands forguard interval.
  1. ^abcdNamed by retroactive inference. It does not exist in the official nomenclature.[1][2][3]
  2. ^802.11ac only specifies operation in the 5 GHz band. Operation in the 2.4 GHz band is specified by 802.11n.
  3. ^Wi-Fi 6E is the industry name that identifies Wi-Fi devices that operate in 6 GHz. Wi-Fi 6E offers the features and capabilities of Wi-Fi 6 extended into the 6 GHz band.
  4. ^TheWi-Fi Alliancebegan certifying Wi-Fi 7 devices in 2024, but as of December 2024 the IEEE standard 802.11be is yet to be ratified

References

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