2018_Best_of_12-24-ZimmermanEditor’s Note: As we say good-bye to 2018, we look back at some of our most shared blogs of the year. We covered a wide range of network infrastructure topics, and we hope you enjoy revisiting some of these popular posts. This blog first appeared on September 10, 2018.

I have spent over 20 years in the world of base station antenna design, and the changes are amazing. The first product I worked on was vertically-polarized with only a single input port, had fixed electrical downtilt and it covered seven percent bandwidth. Last year, CommScope released a 16-port antenna containing seven dual-polarized arrays, all featuring remote electrical tilt (RET) and functioning over bandwidths of up to 61 percent!

What’s driving these changes is the push for more capacity. In particular, the key for operators is capacity density defined as bits/Hz/sec/km2. Capacity in turn is driven via three different means:

  • Spectrum
  • Densification
  • Efficiency

CLICK TO TWEET:  CommScope's Martin Zimmerman takes a look back at 2018: Evolution of Antennas on the Road to 5G.

Spectrum is about the hertz. The more megahertz available for data, the more data that can be sent. This has been driven by governments opening more and more spectrum each year for communications. To utilize more spectrum per antenna, today’s antennas contain more arrays with each array covering increasingly wide frequency bands.

Densification is about square kilometers or miles and re-using spectrum by creating ever smaller cells in which every hertz available can be assigned to different users. Multi-beam antennas and small cell antennas used on metro sites are great ways to increase densification.

Efficiency focuses on the bits/sec. There are several ways to increase efficiency. One is to utilize MIMO (multiple input/multiple output) principles that enable a data stream to be broken into multiple pieces transmitted simultaneously over different paths between the base station antenna and the user. MIMO is why today’s antennas will contain four, or even eight or more arrays for each frequency band.

Efficiency also refers to the modulation scheme used, ranging from QPSK (Quadrature Phase Shift Keying) up to 256 QAM (Quadrature Amplitude Modulation), which greatly impacts the data speed. Accessing the higher QAM rates is only possible if the channel can achieve high SINR (Signal to Interference and Noise Ratio). This requires careful pattern sculpting and focus on critical antenna parameters like F/B (Front-to-Back) and SPR (Sector Power Ratio).

For more information about base station antennas, I invite you to check out chapter three in the updated “Understanding the RF Path” ebook. It gives a great general explanation of how base station antennas work and are designed, explains some of the key parameters, and talks about emerging trends.

About the Author

Martin Zimmerman

Marty Zimmerman is an engineering fellow and leads the antenna solutions team for base station antennas at CommScope, responsible for driving the development of next-generation antenna products based on collaborations with key customers. Other duties include managing the IP portfolio and providing technical guidance on M&A activities. Previously, Marty served as director of Engineering and senior principal antenna engineer for the same team. Prior to that, he worked as an antenna engineer for Sinclair Technologies and Analex, a NASA contractor. Marty holds 28 U.S. and numerous foreign patents in addition to having been published in several journals. He has a Bachelor of Science in electrical engineering from California Institute of Technology and a master’s degree and Ph.D. in electrical engineering from University of Illinois, Urbana-Champaign.

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2 comments for "A Look Back at 2018: Evolution of Antennas on the Road to 5G"
JOSE DE JESUS PALACIOS GONZALEZ Monday, December 24, 2018 10:12 PM

MIMO technologies and the future to 5G, another emergent solution???

Martin Zimmerman Saturday, December 29, 2018 2:07 PM

Hi Jose,
I would say that MIMO, particularly at the 2x2, 4x2 and 8x2 level, is well proven in 4G networks. We are even seeing some preliminary data for Massive MIMO in 4G networks. But we will see much more, particularly 4x4 and Massive MIMO as we move into 5G technologies. A critical issue near term is the cost-benefit trade-off.

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