Telecoms, Datacoms, Wireless, IoT


Expected adoption of Wi-Fi 6 routers for the smart home

27 July 2022 Telecoms, Datacoms, Wireless, IoT

We’ve all been there, working from home or on a Zoom call and then suddenly the computer freezes and everything stops working. In today’s new normal of hybrid work, having a stable and reliable Wi-Fi connection is table stakes. Yet most of us still experience Wi-Fi connectivity problems at home.

One of the reasons for slower or dropped Wi-Fi connectivity is the number of Wi-Fi connected smart home devices that we have at home. How many Wi-Fi connected devices do you have in your home? Now think back to about a decade ago, in 2010, how many Wi-Fi connected devices did you have then? Well in 2010, an average home in the US had approximately four smart home devices, such as a smart TV and a few smartphones. A few years ago, in 2019, an average household in the US had about 11 smart home devices and since the pandemic that number more than doubled to an average of 25 smart home devices in the US. [Ed’s note: Very true. My smart home device count during that same period increased from 7 to 46!].

Today an average household in the US has multiple smart TVs because mom and dad like to watch Bloomberg while the kids binge watch their favourite Netflix series, smart lights, a few smart speakers, Peloton or Mirror and your favourite fitness tracking band or ring, as we are trying to drop the pounds we put on during the pandemic. And let’s not forget about comfort: we need a smart thermostat to control the temperature within our home, smart cameras outside and inside our home, for security and making sure our deliveries do not walk away and so on. If you have kids, or you’re a kid at heart, then there is a lot of gaming that goes on at home and gaming puts a lot more stress on access points (AP) in a different way than the rest of your smart home devices.

All of that adds up to an average of 25+ Wi-Fi connected devices within a home in the US. Nowadays not only do we have more connected devices but since the pandemic we are actually using those connected devices much longer than ever before. In order to support the demand for connectivity within the home, it’s best to have the latest Wi-Fi version, Wi-Fi 6, and multiple access points to increase speed, range, reduce latency, and reduce coexistence issues.

Wi-Fi 6 adds operation in the 6 GHz band, which has not been available in the previous Wi-Fi versions. Since no previous-generation Wi-Fi devices will be operating in this band, the ability to access the medium will be much faster. As a result, communicating on the medium is much more efficient vs the 2,4 GHz and 5 GHz band, resulting in higher overall power efficiency for the IoT device. The clear, uncongested spectrum available in the 6 GHz band can substantially improve product connectivity, robustness and reliability, battery life, and customer experience.

Rollout of Wi-Fi 6 routers

To get the most benefit out of Wi-Fi 6 you need to pair it with a Wi-Fi 6 router. From an infrastructure and total ecosystem standpoint, Wi-Fi  6 is growing. While only 20 routers were certified in 2019, the number grew to 502 in 2020, and was expected to double by the end of 2021 (source: Wi-Fi Alliance). Momentum is picking up on certified Wi-Fi 6 routers with the advanced capabilities of Wi-Fi 6E just approved in January 2021. According to market research firm IDC, in 2021 more than 50% of all Wi-Fi shipments would be Wi-Fi 6, and it is forecasted to make up 79% of all Wi-Fi product shipments within the next two years.

Routers, phones, and laptops are typically early adopters for infrastructure. Even though today’s numbers may be small, once industry leaders move to Wi-Fi 6, most IoT device manufacturers will follow.

Wi-Fi 6 APs only started shipping in late 2019, but current projections show that Wi-Fi 6 will be the dominant technology shipping by 2023. More specifically, according to ABI Research, Wi-Fi 6 will account for around 50% of all access points expected to ship in 2023 and should reach >90% penetration on new access points by 2025.

The hard work of the Wi-Fi Alliance, and with input from companies like Infineon, next-generation IoT products using Wi-Fi 6 promise to be even more innovative and provide an even better user experience. Wi-Fi 6 is expected to be the dominant router shipped in 2023.

When you’re always having trouble connecting to your Wi-Fi network at home, Wi-Fi 6 is the best solution to rely on. This next-generation Wi-Fi offers additional technologies to speed up and make your connection more efficient. It promises optimum performance, less bandwidth congestion, as well as longer battery life for your mobile devices.

Are you thinking of launching a new IoT product in 2023-2024 and will your IoT product take advantage of Wi-Fi 6 to deliver a high-quality experience for your end users? Now may be the time to upgrade your next IoT product to Wi-Fi 6.


Credit(s)



Share this article:
Share via emailShare via LinkedInPrint this page

Further reading:

SMT-mountable card connectors
Telecoms, Datacoms, Wireless, IoT
Würth Elektronik introduces four new SMT-mountable Nano SIM and microSD card connectors and expands its range with solutions for the smallest packages.

Read more...
Module for smart city and smart utility devices
iCorp Technologies Telecoms, Datacoms, Wireless, IoT
Quectel Wireless Solutions has launched the Quectel KCM0A5S, a high-performance Wi-SUN module designed for smart applications such as street lighting, precision agriculture, industrial IoT, smart meters and smart cities.

Read more...
Ultra-low-power wireless module
Altron Arrow Telecoms, Datacoms, Wireless, IoT
The STM32WBA5MMG from STMicroelectronics is an ultra-low-power, small form factor, certified 2,4 GHz wireless module that supports Bluetooth LE, Zigbee 3.0, OpenThread, and IEEE 802.15.4 proprietary protocols.

Read more...
16-channel multicell battery monitor
Altron Arrow Power Electronics / Power Management
The ADBMS6830B is a multicell battery stack monitor that measures up to 16 series-connected battery cells with a lifetime total measurement error of less than 2 mV.

Read more...
Quectel partners with GEODNET
Quectel Wireless Solutions Telecoms, Datacoms, Wireless, IoT
Quectel Wireless Solutions has partnered with GEODNET to deliver Quectel’s Real-Time Kinematic (RTK) correction services, enabling high-precision positioning for IoT applications.

Read more...
Bringing Bluetooth Channel Sounding to automotive and beyond with KW47
Altron Arrow Telecoms, Datacoms, Wireless, IoT
NXP’s new Channel Sounding-certified KW47 and MCX W72 wireless MCUs are set to help automakers with distance measurement, bringing an additional ranging solution for car access and autonomous systems, and will be utilised across a broader spectrum of applications.

Read more...
Dual-band GNSS antenna
RF Design Telecoms, Datacoms, Wireless, IoT
The Taoglas Accura GVLB258.A, is a passive, dual-band GNSS L1/L5, high-performance antenna for high precision GNSS accuracy and fast positioning.

Read more...
What is Wi-Fi HaLow and why choose it for IoT?
iCorp Technologies Editor's Choice Telecoms, Datacoms, Wireless, IoT
Wi-Fi HaLow introduces a low power connectivity option that, in contrast to other Wi-Fi options, offers greater range of approximately 1 km, which opens up a raft of IoT use cases.

Read more...
Wi-Fi 6 and Bluetooth LE coprocessor module
Altron Arrow Telecoms, Datacoms, Wireless, IoT
The ST67W611M1 from STMicroelectronics boasts an all-in-one design which, together with its capabilities, contribute to making it an attractive choice for IoT edge devices requiring a single-chip solution.

Read more...
Futureproofing IoT connectivity
SIMcontrol Telecoms, Datacoms, Wireless, IoT
A managed private APN assigns every device to an isolated carrier slice, producing a single ingress to the enterprise network, with traffic bypassing shared internet paths and reducing exposure.

Read more...









While every effort has been made to ensure the accuracy of the information contained herein, the publisher and its agents cannot be held responsible for any errors contained, or any loss incurred as a result. Articles published do not necessarily reflect the views of the publishers. The editor reserves the right to alter or cut copy. Articles submitted are deemed to have been cleared for publication. Advertisements and company contact details are published as provided by the advertiser. Technews Publishing (Pty) Ltd cannot be held responsible for the accuracy or veracity of supplied material.




© Technews Publishing (Pty) Ltd | All Rights Reserved