Ubiquiti Networks RockeM User Manual

D

esign Guide

How airSync

™

works

airSync reduces problems when co-locating multiple radios

near each other. When airSync is enabled, all APs transmit

at the same time, and receive at the same time, reducing

co-location interference. airSync synchronizes airMAX APs

with a satellite reference timing signal. When enabled,

airSync eliminates receive (RX) errors due to co-location

transmission interference. To use airSync, all Stations must

have Ubiquiti products with GPS functionality running airOS

version 5.4.5 or above.

GPS Performance Expectations

•

All APs will transmit at the same time, and receive at the

same time.

•

Reduces co-location interference.

•

Latency may be slightly higher (8-16 ms latency), but it

should be constant as network scales.

•

Throughput is fixed (fixed time slots/directions), so the

throughput in one direction may be as much as half of

what it is with airSync disabled, but it remains constant

as the network scales. Lower timing values will provide

better TCP performance (especially single stream) but the

throughput will be lower when sending bulk traffic with

lots of TCP streams multiplexed. Higher timing values will

provide better multi-stream TCP and UDP performance,

but at the cost of latency. Overall throughput linearly

increases based on the number of APs.

Recommended Guidelines

•

Adjacent sectors should use different frequencies.

•

Back-to-back sectors can use the same frequency.

•

Do not use the same frequency on ALL of your co-located

APs. Some of your co-located APs may be able to use

the same frequency, depending on the scenario. See the

Design Examples: Four APs and Two APs.

•

The number of frequencies you should use depends on

the number of APs you have on a single tower because a

client can get confused if it receives signals on the same

frequency from two different APs.

•

If using more than one frequency, ensure that you have

20 MHz separation between the frequency band edges.

For example: if frequency range A ends at 5815 MHz, then

frequency range B should start at 5835 MHz or higher.

Requirements

To sync multiple APs, these are the requirements:

•

The master AP has IP connectivity (specifically UDP) to the

slave APs.

•

All APs have an active GPS signal.

•

Transmit and receive durations have been configured on

the master AP.

Design Examples

Four APs

Use two different frequencies. Set the same frequency on

each back-to-back pair of APs. For example, a client is located

equidistant from two APs (one set to frequency A and one set

to frequency B). The client will only receive signals from the

AP that shares its frequency. Be sure that A and B have at least

a minimum of 20 MHz channel separation.

ABAB Channel Design

Three APs

Set a different frequency on each AP. For example, a client is

located equidistant from two APs (one set to frequency A and

one set to frequency B). The client will only receive signals

from the AP that shares its frequency. A different client is

located equidistant from a different pair of APs (one set to

frequency B and one set to frequency C). This client will only

receive signals from the AP that shares its frequency.

ABC Channel Design

Two APs

Set the same frequency on both APs located back to back.

AA Channel Design

Design Guide