- 10,000+ Products
- Australian Stock & Warranty
- We accept Purchase orders
Ubiquiti 2GHz AirMax Dual Omni 10dBi Antenna – AMO-2G10
$242.00 (inc. of GST)
Buy now, pay smarter. Learn more
Ubiquiti 2GHz AirMax Dual Omni 10dBi Antenna
Ubiquiti Networks airMAX AMO-2G10 Omni is a Carrier Class 2×2 Dual Polarity MIMO Omnidirectional Antenna that was designed to seamlessly integrate with RocketM radios (RocketM sold separately). Pair the RocketM’s radio with the airMAX AMO-2G10 Omni’s reach to create a powerful, 360° omnidirectional basestation.. This seamless integration gives network architects unparalleled flexibility and convenience.
Pair the airMAX® AMO-2G10 Omni Antenna with a Rocket™M BaseStation for 360° coverage in Point-to-MultiPoint (PtMP) networks.
Utilize airMAX Technology*
Unlike standard Wi-Fi protocol, Ubiquiti’s Time Division Multiple Access (TDMA) airMAX protocol allows each client to send and receive data using pre-designated time slots scheduled by an intelligent AP controller. This “time slot” method eliminates hidden node collisions and maximizes airtime efficiency. It provides many magnitudes of performance improvements in latency, throughput, and scalability compared to all other outdoor systems in its class.
What’s in it for you?
- Seamlessly Integrates with RocketM
- 360° Coverage
- Intelligent QoS Priority is given to voice/video for seamless streaming.
- Scalability High capacity and scalability.
- Long Distance Capable of high-speed, carrier-class links.
- Latency Multiple features dramatically reduce noise.
Note: * When Omni is paired with RocketM
Guide and Datasheet
Weight with Mount 2.1 kg (4.24 lb)
Frequency 2.35 - 2.55 GHz
Gain 10 dBi
Elevation Beamwidth 12°
Electrical Downtilt 4°
Max. VSWR 1.7:1
Wind Survivability 200 km/h (125 mph)
Wind Loading 97.9 N @ 200 km/h (22 lbf @ 125 mph)
Polarization Dual Linear
Cross-Pol Isolation 25 dB Min.
RF Connectors 2 RP-SMA Connectors (Weatherproof )
Mounting Universal Pole Mount, RocketM Bracket, and Weatherproof RF Jumpers Included
ETSI Specification EN 302 326 DN2