- What is the MCS Index?
- MCS Table
- MCS and SNR/RSSI
- What is MCS in wifi?
- Is it higher MCS better?
- What is MCS in 5G?
- What is the best channel width for 5ghz?
- How can I boost my 5GHz signal?
- What is a good channel for 5GHz?
- What does MCS mean in WiFi?
- What is the best WiFi standard?
- What is MCS full form?
- What is MCS index in LTE?
- What is the current 802.11 standard?
What is the MCS Index?
The Modulation Coding Scheme (MCS) index is a metric based on several parameters of a WiFi connection between two stations. Namely, for 802.11ac, it depends on the modulation type, the coding rate, the number of spatial streams, the channel width, and the guard interval. Here is what each one of these parameters represent:
Modulation type: the phase and amplitude modulation for bit encoding. More advanced modulations (e.g. 256 QAM) transfer more information, but they are also more susceptible to noise.
Coding rate: how many bits transfer information and how many are used for error correction. Higher values (e.g. ⅚) transfer more information, but there is less room for error correction.
Spatial streams: how many independent data streams are used. Higher values (e.g. 4 streams) increase data rates, but are susceptible to noise and interference.
Channel width: how big is the channel used for the communication. Wider channels can achieve higher bandwidth, but doubling the channel width increases the noise floor by 3 dB, which decreases SNR.
Guard interval: the pause between each packet transmission. Short pauses allow the transmission of more packets, but increase the chances of interference.
With the introduction of 802.11ax the additional parameter that affects MCS is whether the communication uses OFDM or OFDMA.
MCS Table
In a nutshell, an MCS table is a lookup that can be used to find which data rate will be negotiated between two stations once all the connection parameters are known. For each possible combination of modulation, coding rate, number of spatial streams, channel width, and guard interval, there is a unique MCS index.
As an example, I will borrow the MCS table for 802.11ac from the WirelessLAN Professionals’ that you can download from the WLP website .
The 802.11ax MCS table becomes much larger, and for more details, I would refer you to this post by SemFio. 802.11ax has introduced close to 3000 new possible data rates.
MCS and SNR/RSSI
This table has the additional information of the minimum SNR and RSSI required to achieve a specific MCS index for different channel widths. For example, for 2 spatial streams, and an 80 MHz channel, to get an MCS of 5 you need at least 24 dBM of SNR or -60 RSSI. The relationship between SNR and MCS on this table was taken from Revolution WiFi’s blog .
It’s known that MacOS provides much more in-depth information about its WiFi connectivity. Here is a screenshot of my connection information to the netbeez SSID which you can get with Options+click on the status bar WiFi icon:
As you can see, it provides the channel width (80 MHz), the RSSI (-64 dBm), the noise (-85 dBm), the Tx Rate (351 Mbps), the standard (802.11ac), the MCS index (4), and the spatial streams (2). Actually, whatever you need to know about the established communication between a MAC and the AP is pretty much readily available.
Now, if you are curious, you can use the MCS table to look up what modulation and coding scheme is used. In this case, you can easily see on the MCS index 4 line under the 2 spatial stream section that it’s using 16-QAM with a ¾ code. On that same line you can also see that the 351 Mbps rate corresponds to 800 ns guard interval, and -64 dBm RSSI with 24 dBm SNR (64 – (-85)) (which match what MacOS is reporting).
Windows is not as friendly to WiFi curious users. On Windows 10 if you type “network properties” you get a list of all available networks on your system. Below we can see the information about my WiFi connection:
The only relevant information to MCS is the “Link speed (Receive/Transmit): 650/650 (Mbps)”. With that information only, I can go to the MCS table and look up the 650 data rate. It shows up at the 1 spatial stream MCS 7 and 160 MHz channel, and at the 2 spatial streams MCS 7 and 80 MHz channel.
Even for commercial access points, it’s fairly easy to find and configure the channel width. In my case, I know that it’s an 80 MHz channel, and I can derive that the MCS index is 7 with 2 spatial streams, and from there I can find all other information such as modulation (64-QAM), coding (⅚), guard interval (400 ns), minimum SNR (31 dBm) and RSSI (-58 dBm) required.
I wouldn’t be as lucky if Windows 10 was reporting 780 Mbps which shows up 7 times on the table. Even for the 80 MHz channel it appears twice (MCS index 8 and 9).
On MacOS you hardly need the MCS table. For me, the most common use of the table is to derive the minimum SNR and RSSI on Windows and Linux by knowing the data rate. This is useful when I am trying to evaluate the RF environment of a client and consequently troubleshoot connectivity issues.
What is MCS in wifi?
The Modulation Coding Scheme (MCS) index is an existing industry metric based on several parameters of a Wi-Fi connection between a client device and a wireless access point, including data rate, channel width, and the number of antennas or spatial streams in the device.
Is it higher MCS better?
Higher values (e.g. 4 streams) increase data rates, but are susceptible to noise and interference. Short pauses allow the transmission of more packets, but increase the chances of interference. With the introduction of 802.11ax the additional parameter that affects MCS is whether the communication uses OFDM or OFDMA.
What is MCS mode?
MCS (Modulation and Coding Scheme) defines how many useful bits can be transmitted per Resource Element (RE). MCS depends on radio link quality. The better quality the higher MCS and the more useful data can be transmitted.
What is MCS in 5G?
For any communication technology, Modulation and Coding Scheme (MCS) defines the numbers of useful bits which can carried by one symbol. In contrast with 5G or 4G, a symbol is defined as Resource Element (RE) and MCS defined as how many useful bits can be transmitted per Resource Element (RE) .
What is the best channel width for 5ghz?
40 MHz
When using 5 GHz, it is recommended to use at least 40 MHz channel width, as some client devices may not prefer 5 GHz unless it offers a greater channel width than 2.4 GHz.
What is transport block in 5G?
Transport Block in 5G NR, is nothing but the payload which is passed between the MAC and Phy Layers, specifically for the shared data channel such as PDSCH and PUSCH. The transport The transport block consists of up to million bits and the code block consists of up to 8448 bits.
How can I boost my 5GHz signal?
Simply adjusting the placement and orientation of the wireless router may improve 5GHz signal strength. This will vary by model; as such, experimenting with different locations and orientations to achieve the best performance is recommended.
What is a good channel for 5GHz?
All of the 5 GHz channels offered support at least 20MHz channel width without overlap. When using 5 GHz, it is recommended to use at least 40 MHz channel width, as some client devices may not prefer 5 GHz unless it offers a greater channel width than 2.4 GHz.
What is a transport block in 5G?
Transport Block in 5G NR, is nothing but the payload which is passed between the MAC and Phy Layers, specifically for the shared data channel such as PDSCH and PUSCH. A Transport Block undergoes Phy layer processing at the transmitter before being mapped onto the PDSCH for transmission over the air interface.
What does MCS mean in WiFi?
Modulation Coding Scheme
The Modulation Coding Scheme (MCS) index is an existing industry metric based on several parameters of a Wi-Fi connection between a client device and a wireless access point, including data rate, channel width, and the number of antennas or spatial streams in the device.
What is MCS mode?
When to use MSC mode MSC is specifically designed for the transmission of data over a USB interface. Typically this is used between a USB device (like an MP3 player) and a computer. This USB transfer mode is also sometimes called UMS (short for USB Mass Storage) which can be confusing.
What is the best WiFi standard?
Faster. Farther. Better. The Evolution of 802.11.
Standard | Released | Speed |
---|---|---|
Wi-Fi 5/IEEE 802.11ac | 2013 | 450 Mbps/1300 Mbps |
IEEE 802.11ad (WiGig) | 2012 | 6.7 Gbps |
IEEE 802.11ah (HaLow) | 2016 | 347 Mbps |
Wi-Fi 6/IEEE 802.11ax | 2019 est. | 450 Mbps/10.53 Gbps |
What are MCS rates?
The Modulation Coding Scheme (MCS) index is a metric based on several parameters of a WiFi connection between two stations. Namely, for 802.11ac, it depends on the modulation type, the coding rate, the number of spatial streams, the channel width, and the guard interval.
What is MCS full form?
Master of Computer Science (MCS) Degree.
Is short GI good?
When to use short GI? When intending to improve the throughput, enable short GI can improve the throughput about 10%. If the multipath effect is not too serious (not too many metals or other reflecting materials), you can enable short GI. If you are using 802.11n or 802.11ac only, you can enable short GI.
What is MCS index in LTE?
MCS (Modulation and Coding Scheme) defines how many useful bits can be transmitted per Resource Element (RE). MCS depends on radio link quality. The better quality the higher MCS and the more useful data can be transmitted.
Which Wi-Fi standard is the fastest?
If you’re looking for faster Wi-Fi performance, you want 802.11ac — it’s that simple. In essence, 802.11ac is a supercharged version of 802.11n. 802.11ac is dozens of times faster, and delivers speeds ranging from 433 Mbps (megabits per second) up to several gigabits per second.
What is the current 802.11 standard?
The current wireless networking standard we all use today is referred to as IEEE 802.11ac. The upcoming standard is called IEEE 802.11ax. Wi-Fi 5, née 802.11ac, only uses bands in the 5-GHz spectrum. Wi-Fi 6, or 802.11ax, is supposed to optimize for the transmission frequencies of both 2.4-GHz and 5-GHz bands.