Cobham Antenna Systems develops new multi-beam hub base station antenna

New multi-beam hub base station antenna will enable ultra fast MIMO radio system operators to provide 1Gbps/km2 anywhere within a cell

Cobham Antenna Systems develops new multi-beam hub base station antenna

Cobham Antenna Systems, Microwave Antennas has developed a new multi-beam hub base station antenna, which is designed to enable MIMO (multiple input multiple output) radio system operators to meet their goal of 1Gbps/km2 anywhere within a cell. 

Aimed at high speed MIMO 4G (and beyond) urban access for backhaul, the MBA6-3.5DS45/2045 antenna was developed out of a European Union funded project. The multi-beam antenna will also benefit military and security applications.   

Capacity increase

By removing barriers to next-generation network deployment, this multi-narrow-beam antenna allows for a dramatic increase in capacity over existing communication systems. It provides an essential component enabling an improvement to the overall infrastructure capacity density of the current mobile network by an order of magnitude (10x).  

Projected deployment for the hub base station antenna system is for it to communicate with network of ‘below-rooftop’ access base stations using existing structures. The system strategy with these access base stations will allow self-backhauling.

The antenna has 90° coverage (a 90°arc) utilising six individual narrow beam patterns each with a half power beamwidth of 15°. MIMO capability is provided with +/-45° polarisation in each of the six 15° sectors.  

High density coverage

The advantage of this format is that a narrow beam can create high density coverage within a specific narrow area allowing for a high level of frequency re-use whilst being far more efficient than installing six separate narrow beam directional antennas.  

By positioning four multi-beam antennas in a square formation, complete 360° coverage is achieved as this provides 24 dual-polarised beams. The current system benefits from meeting ETSI specification for multi-beam antennas (EN 302 326-3 V.1.1.2) provides low side-lobe levels for greater system efficiency.

Security and military use

For security and military applications the technology can be scaled to cover other frequency bands, with applications such as communications to multiple mobile platforms (ground or airborne). This system has the benefit of providing higher gain over a wider angle than a single sector antenna. Communications are more secure and less prone to intercept and jamming than wide beam or omni antennas.   

The antenna measures only 586mm (23”) high x 456mm (17.95”) wide x 76mm (3”) deep, making it extremely compact given that it provides 2 x 6 beams each with 17dBi peak gain. For dense urban deployment, this compact multi-beam antenna will reduce wind-load on towers and the cost of installation compared with conventional alternatives.

Technology

The antenna element comprises a single cross-dipole assembly operating at a centre frequency of 3.5GHz interlocked in a configuration which provides a slant dual polar beam. Eight sets of these assemblies are fed in phase through a stripline feed to create the single 110° sector antenna which forms the basis for the array. There are 8 sector antennas in the complete assembly.

In order for the 6 (x2 polarisations) narrow beams to be formed to cover the 90° arc, two 8x8 Butler matrix beam forming devices are used to feed the separate ports of each antenna element. By a mechanism of fixed phase shifters and couplers the Butler matrices provide defined sets of phases into each of the 8 internal antenna elements which results in two sets of 6 skewed beams (The two outer ones covering +/-60degree are not currently used). 

Within the new unit the Butler matrix devices are fully integrated into the antenna eliminating the need for 16 phased-matched cables making for a much more efficiency and cost-effective antenna.
In this antenna the down-tilt is a nominal 2°across the band of interest, i.e. 3.4 – 3.6GHz with an elevation beamwidth of 10° to the half-power point.  

Written by Wireless magazine
Wireless magazine

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