Wireless Networks And Your True Internet Speeds

Why is my internet slower than what I pay for?

We are often asked by clients why their Wi-Fi speeds are not meeting the expected speeds they purchased through their Internet Service Provider (ISP).

A closer look at actual real life wireless network speeds reveals something closer to what you are experiencing.  

Your equipment is a huge factor.  We specialize in specifying the right equipment for residences and small businesses to maximize the speeds they are paying for. 

If you are interested in a free internet assessment sign up for a Smart Home Consultation online here. 

Here is a quick debrief:

What is the actual real-life speed of wireless networks?

There are many wireless standards in use today, and newer technologies can bond multiple channels/frequencies together to achieve higher throughput.

First, keep in mind that in data communications, speed is measured in kilobits (or megabits) per second, designated as kbps, or Mbps. You can check our bits/bytes conversion calculator for reference.

Below is a breakdown of the various 802.11 WiFi standards and their corresponding maximum speeds. Theoretical wireless speeds (combined upstream and downstream) are as follows:

802.11b – 11 Mbps (2.4GHz)

802.11a – 54 Mbps (5 GHz)

802.11g – 54 Mbps (2.4GHz)

802.11n – 600 Mbps (2.4GHz and 5 GHz) – 150Mbps typical for network adapters, 300Mbps, 450Mbps, and 600Mbps speeds when bonding channels with some routers

802.11ac – 1300+Mbps (5 GHz) – newer standard that uses wider channels, QAM and spatial streams for higher throughput

Below is a breakdown of actual real-life average speeds you can expect from Wireless Routers and Access Points within a reasonable distance, with low interference and small number of simultaneous clients:

802.11b – 2-3 Mbps downstream, up to 5-6 Mbps with some vendor-specific extensions.

802.11g – ~20 Mbps downstream

802.11n – 40-50 Mbps typical, varying greatly depending on configuration, whether it is mixed or N-only network, the number of bonded channels, etc. Specifying a channel, and using 40MHz channels can help achieve 70-80Mbps with some newer routers. Up to 100 Mbps achievable with more expensive commercial equipment with 8×8 arrays, gigabit ports, etc.

802.11ac – 70-100+ Mbps typical, higher speeds (200+ Mbps) possible over short distances without many obstacles, with newer generation 802.11ac routers, and client adapters capable of multiple streams.

Actual wireless speeds vary significantly from the above theoretical maximum speeds due to:

Distance – distance from the access point, as well as any physical obstructions, such as walls, signal-blocking or reflecting materials affect signal propagation and reduce speed

Interference – other wireless networks and devices in the same frequency in the same area affect performance

Shared bandwidth – available bandwidth is shared between all users on the same wireless network

In addition, net IP layer throughput of Wi-Fi is typically 60% of the air link rate due to Wi-Fi being half-duplex with ACKs, and being CSMA/CA. The number of simultaneous connections, and even the type of wireless security can affect and slow down some older routers with inadequate processors/memory.