02-20-2021 05:11 PM
Replaced (same physical place, same wifi in laptop)
Zyxel NWA1123-ACv2 with AP230
On 5Ghz connection speed dropped from 768Mbps to only 400Mbps (that is HALF)
Not something I expected.
Played with all the settings available in Connect, no difference, cannot make it nowhere near the same speed.
Anybody has any ideas?
Thanks
sebus
02-21-2021 02:25 PM
Well, what can I say to convince you?
With no option in driver, withOUT “band-steering mode force-5g” in AP config client will connect only to 2.4Ghz, WITH “band-steering mode force-5g” in AP config, same client will connect to 5Ghz
While I know the commands for A-MPDU & A-MSDU because the lot is available ie here
I have checked my enterprise config & while Enable aggregate... is checked in ac radio profile, it does not reflect in the actual config, it only shows in the ng radio profile (hence the question, because it makes no sense to me)
02-21-2021 11:01 AM
To enable frame aggregation there are two CLI commands:
radio profile <string> ampdu for A-MPDU
and
radio profile <string> amsdu for A-MSDU
02-21-2021 10:57 AM
T
Just because the client does not offer an option to select a frequency does not mean that the client does not make the decision. The AP can offer the client the SSID and connection options, but it cannot decide which of the options the client has to uses, nor which frequency band it uses.
This also applies when band steering is switched on.
02-21-2021 10:45 AM
There are two settings regarding frame aggregation:
radio profile <sting> ampd for a-mpdu
and
radio profile <sting> amsd for a-msdu
02-21-2021 10:06 AM
Anybody has any idea to what CLI command this translates (on AC radio profile)?
Enable Aggregate MAC Protocol Data Units: Select the check box to enable AMPDU (Aggregate MAC Protocol Data Unit) transmissions to reduce overhead when the transmission channel is busy. When you enable AMPDU, the HiveAP combines data frames into fewer, larger frames before transmitting them and is able to recognize the format of larger frames when it receives them. Generally, enabling AMPDU increases performance. Clear the check box to disable AMPDU. By default, it is enabled.
My full radio profile for 802.11ac:
radio profile uknh_AP230_radio_ng_ac0
radio profile uknh_AP230_radio_ng_ac0 phymode 11ac
radio profile uknh_AP230_radio_ng_ac0 dfs
radio profile uknh_AP230_radio_ng_ac0 channel-width 40
radio profile uknh_AP230_radio_ng_ac0 acsp max-tx-power 15
radio profile uknh_AP230_radio_ng_ac0 acsp access channel-auto-select time-range 01:00 04:00
radio profile uknh_AP230_radio_ng_ac0 acsp interference-switch enable
radio profile uknh_AP230_radio_ng_ac0 scan access client power-save
radio profile uknh_AP230_radio_ng_ac0 max-client 50
radio profile uknh_AP230_radio_ng_ac0 interference-map enable
radio profile uknh_AP230_radio_ng_ac0 interference-map cu-threshold 35
radio profile uknh_AP230_radio_ng_ac0 interference-map crc-err-threshold 35
radio profile uknh_AP230_radio_ng_ac0 deny-client 11b
radio profile uknh_AP230_radio_ng_ac0 short-guard-interval
radio profile uknh_AP230_radio_ng_ac0 benchmark phymode 11b rate 11 success 60 usage 50
radio profile uknh_AP230_radio_ng_ac0 benchmark phymode 11b rate 5.5 success 70 usage 50
radio profile uknh_AP230_radio_ng_ac0 benchmark phymode 11g rate 36 success 70 usage 50
radio profile uknh_AP230_radio_ng_ac0 benchmark phymode 11g rate 24 success 80 usage 50
radio profile uknh_AP230_radio_ng_ac0 benchmark phymode 11a rate 36 success 70 usage 50
radio profile uknh_AP230_radio_ng_ac0 benchmark phymode 11a rate 24 success 80 usage 50
radio profile uknh_AP230_radio_ng_ac0 benchmark phymode 11n rate mcs4/2 success 80 usage 50
radio profile uknh_AP230_radio_ng_ac0 benchmark phymode 11n rate 54 success 70 usage 50
radio profile uknh_AP230_radio_ng_ac0 benchmark phymode 11ac rate mcs2/2 success 80 usage 50
radio profile uknh_AP230_radio_ng_ac0 benchmark phymode 11ac rate 54 success 70 usage 50
radio profile uknh_AP230_radio_ng_ac0 frameburst
radio profile uknh_AP230_radio_ng_ac0 acsp power-maxdrop 9