Ubiquiti airMAX IsoBeam 620
The Ubiquiti airMAX IsoBeam 620 enhances the isolation performance of Point-to-Point (PtP) links and backhauls, making it ideal for co-location deployments. When attached to a Ubiquiti 620mm Dish Antenna, it improves wind load performance and provides advanced RF energy isolation in a sleek, integrated design. The IsoBeam is compatible with dish antennas such as PowerBeam PBE-5AC-620, PowerBeam PBE-M5-620, and RocketDish RD-5G30-LW, and can be easily installed with just one screw. Its innovative RF-choke perimeter ensures superior noise immunity in co-location deployments.
Tech Specs
| Device Specifications | |
|---|---|
| Dimensions | Ø680 x 134 mm (Ø26.8 x 5.3") |
| Weight | 4.4 kg (9.7 lb) |
| Compatibility | RD-5G30-LW, PBE-5AC-620, PBE-M5-620, AF-5G30-S45 |
| NDAA Compliant | Yes |
FAQs
Q1: What is the ISO‑BEAM‑620 used for?
A: It is a radome / isolator cover designed to mount over compatible 620 mm dish antennas (e.g. PowerBeam 5AC‑620, PBE‑M5‑620, RocketDish RD‑5G30‑LW, AF‑5G30‑S45), providing protection from weather and improving RF isolation.
Q2: What benefits does using the ISO‑BEAM‑620 provide for a wireless link?
A: It reduces side‑ and rear‑lobe interference and improves noise immunity — which helps when multiple antennas are co‑located on the same mast or tower. It also shields the dish from wind, rain, dust and prevents visual exposure of the antenna feed assembly.
Q3: What are the physical and mechanical specifications of the ISO‑BEAM‑620?
A: The radome has a diameter of 620 mm, is designed to fit 620 mm‑class dish antennas, and comes as a weather‑resistant enclosure. It is made to withstand outdoor conditions while maintaining performance of the underlying antenna.
Q4: With which antennas is ISO‑BEAM‑620 compatible?
A: It is compatible with multiple 620 mm‑class antennas — including PowerBeam 5AC‑620, PowerBeam M5‑620, RocketDish RD‑5G30‑LW, and AF‑5G30‑S45 (or similar 620 mm 5 GHz dishes).
Q5: Does the ISO‑BEAM‑620 affect the antenna’s signal or link quality?
A: When properly installed, it maintains the antenna’s designed RF performance (gain, beam shape) while reducing external noise and interference — typically improving link stability in co‑located or noisy RF environments, without negatively impacting the main lobe performance.