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QSN Compare · Managed Wi-Fi
Wi-Fi 567

Three generations of wireless, a decade of progress, and a simple question for every home and office: which one do you actually need? Here's the honest engineering view — not the box on the shelf.

The three standards

One leap at a time

Each generation kept what worked and solved the problem the last one couldn't — first raw speed, then crowded airspace, now latency and spectrum.

2014
Generation 5
Wi-Fi 5
802.11ac · 5 GHz
3.5 Gbps max
The 5 GHz speed jump. Still everywhere, still fine for browsing and SD/HD video — but blind in crowds.
2019 · 6E 2021
Generation 6 / 6E
Wi-Fi 6
802.11ax · 2.4 + 5 (+6) GHz
9.6 Gbps max
Built for density. OFDMA and uplink MU-MIMO let one AP serve many devices at once. The sensible default today.
2024
Generation 7
Wi-Fi 7
802.11be · 2.4 + 5 + 6 GHz
46 Gbps max
Multi-Link Operation bonds bands together for speed and low latency. The future-proof choice — if the wiring behind it can keep up.
Headline throughput

The size of the leap

Maximum theoretical link rate, drawn to scale. The gaps are real — but read the note underneath before you spend on them.

Wi-Fi 5
3.5 Gbps
Wi-Fi 6
9.6 Gbps
Wi-Fi 7
46 Gbps

These are theoretical maximums — every radio, all streams, perfect conditions, no walls. No real device ever sees them. Actual speed is set by your AP placement, channel plan, wired backhaul and the slowest client on the network. That gap between the box and the building is the engineering QSN does.

Spectrum access

Which airspace each one can use

More bands means more room to breathe. The clean, wide 6 GHz band is where Wi-Fi 6E and 7 pull ahead in busy buildings.

Wi-Fi 5
2.4 GHznot used
5 GHz
6 GHznot available
Wi-Fi 6 / 6E
2.4 GHz
5 GHz
6 GHz
6E
Wi-Fi 7
2.4 GHz
5 GHz
6 GHz
Side by side

The full specification sheet

Specification Wi-Fi 5 Wi-Fi 6 / 6E Wi-Fi 7
Standard802.11ac802.11ax802.11be
Released20142019 · 6E 20212024
Bands5 GHz2.4 + 5 GHz
6E adds 6 GHz
2.4 + 5 + 6 GHz
Max theoretical rate≈ 3.5 Gbps≈ 9.6 Gbps≈ 46 Gbps
Max channel width80 MHz (160 opt.)160 MHz320 MHz
Modulation256-QAM1024-QAM4096-QAM
Spatial streamsup to 4up to 8up to 16
OFDMA (shares airtime)✓ enhanced
MU-MIMODownlink onlyUp + downlinkUp + downlink
Target Wake Time (IoT battery)
Multi-Link Operation (bonds bands)
Best suited toLegacy / basic coverageDense homes & officesHigh-density, low-latency, future-proofing
The QSN view

The badge is the ceiling, not the floor

The number on the box is the theoretical maximum under perfect lab conditions. In a real villa or office, your usable speed is decided by access-point placement, channel planning, the wired backhaul feeding each AP, interference from neighbours, and the slowest device on your network. A well-designed Wi-Fi 6 network will comfortably beat a badly-installed Wi-Fi 7 one.

Wi-Fi 7's headline numbers also assume the infrastructure behind it can deliver them. A 46 Gbps radio fed by a single gigabit cable is throttled at the wall. To realise it you need a Cat 6A backbone and 2.5/10 GbE switching — the structured cabling and network design that is QSN's core work, not an afterthought.

Choose Wi-Fi 5 if…

You're keeping existing gear alive on a tight budget and the workload is light — browsing, calls, SD/HD video for a few devices.

Choose Wi-Fi 6 / 6E if…

It's most homes and offices today. Many devices, smart-home and CCTV load, 4K streaming. The best value-for-performance default in 2026.

Choose Wi-Fi 7 if…

Large villa or estate, heavy concurrent 4K/8K, VR, low-latency needs — and you're building the Cat 6A / 10 GbE backbone to back it.

Not sure which your space needs?

That's the right question to ask before buying. QSN runs a heatmap survey of your property and designs the network around how you actually use it — then supplies, installs and manages it end to end.