Hint. Enter the same string on both peers
Description. Link name is used to identify the traffic belonging to given radio on configured frequency. The same name should be set on remote link peer. In case of proximity of devices belonging to different links, special care should be taken to provide different link names in the configuration of these devices.
Value type. text
Default value. duo
Examples.
link-1
duo-5
Hint. Choose different values on both peers
Description. This setting is needed to properly setup antenna polarity. It does not set any of the devices in "master", "client" or similar modes.
Value type. select
Allowed values.
A
B
Default value. A
Hint. Chooses the way that radio devices are used
Description. The Full-Duplex mode uses one radio only for receiving, and one only for transmitting the data. Thanks to such approach the link latency is minimized and the bandwidth is maximized in case the traffic being transmitted is symmetric. The Half-Duplex mode can dynamically use both radios for transmitting and receiving, thus maximizing the bandwidth in case the traffic is asymmetric, ie. the traffic being transmitted is much greater than the one being received, or opposite.
Value type. select
Allowed values.
fdx (Full-Duplex (1 TX, 1 RX))
hdx (Half-Duplex (2 TX/RX))
Default value. fdx
Description. Turn this option on in order to strictly preserve the order in which Ethernet frames are received from other network devices, thus conforming to IEEE 802.3 standards. Generally it is not required as many protocols can cope with Ethernet frames received in different order. Turning this option off should increase the overall performance and decrease link latency.
Value type. bool
Default value. 0
Description. This option configures the frequency that the first radio operates on. Be sure to select only these frequencies that you are allowed to transmit on.
Value type. select
Description. This option configures the frequency that the second radio operates on. In automatic mode the second frequency will be chosen basing on the main frequency so seperation between them is maximal. Be sure to select only these frequencies that you are allowed to transmit on.
Value type. select
Description. This option configures the width of the channel that radio operates on. Be sure to select only the channel width that you are allowed to transmit with.
Value type. select
Allowed values.
5
10
20
40 (*)
Default value. 20
Value type. select
Allowed values.
auto (automatic)
100% (18dBm)
90% (16dBm)
80% (14dBm)
70% (13dBm)
60% (11dBm)
50% (9dBm)
40% (7dBm)
30% (5dBm)
20% (4dBm)
10% (2dBm)
0% (0dBm)
Value type. select
Allowed values.
100% (18dBm)
90% (16dBm)
80% (14dBm)
70% (13dBm)
60% (11dBm)
50% (9dBm)
40% (7dBm)
30% (5dBm)
20% (4dBm)
10% (2dBm)
0% (0dBm)
Value type. select
Allowed values.
auto (automatic)
0 (BPSK, r=1/2)
1 (BPSK, r=3/4)
2 (QPSK, r=1/2)
3 (QPSK, r=3/4)
4 (16-QAM, r=1/2)
5 (16-QAM, r=3/4)
6 (64-QAM, r=2/3)
7 (64-QAM, r=3/4)
Value type. select
Allowed values.
auto (automatic)
500
900
1400
1800
2300
2700
3100
3600
4000
Hint. Radio transmits regardless of the actual payload. Useful for medium reservation.
Description. Continuous transmission forces the radio to transmit frames as fast as possible, what leads to full utilization of the medium regardless of the actual payload. It delivers a functionality of reporting link capabilities without a need to generate any traffic externally. Also, it contributes to faster adaptation of transmission parameters. This feature is available only in Full-Duplex mode.
Value type. bool
Default value. 0
Description. Enabling short inter-frame spaces increases the maximum achievable throughput and link stability at the expense of disabling cooperation with other devices operating on the same frequency. This feature is available only in Full-Duplex mode.
Value type. bool
Default value. 0
Description. Algorithm performing optimization of transmission parameters requires continuous sampling in order to follow changing conditions. Sampling is realized by sending frames with suboptimal parameters, which causes decrease of resultant throughput. This parameter specifies maximum fraction of the radio throughput that can be sacrificed for the purpose of sampling. Higher value can result in faster and more precise reaction to changes of transmission conditions.
Value type. select
Allowed values.
1%
2%
5%
10%
20%
30%
40%
50%