The One Book You Need to Learn Wireless Networks

Imagine you could read one book and learn virtually everything you ever wanted to know about the space program, or the tax code, or medical research – all enormously complicated subjects that would be difficult to distill into one book. You might be surprised to learn that modern mobile communications networks are of similar complexity.

Understanding the RF path

If you want to know everything about wireless networks, you’ve got to be interested in a lot of topics. You’ll need to know about setting up cell sites, as they’re the basis of cellular networks. You’ll want to learn about the base station antennas that ‘talk’ to your phones.
You’ll need to read about the backbone of the network, those microwave antennas and fiber optic cables that carry your voice, texts, and internet traffic from the cell site into the core communications network. You’ll also need to learn about radio spectrum, that oh-so-rare commodity that’s invisible but worth billions of dollars at auction. Network operators need to squeeze every bit of capacity out of their spectrum assets – though, in the near future, some of it will be shared!

And how do wireless networks get power? How do they avoid interfering with each other? What do you do if lightning strikes your tower? How do indoor wireless networks differ from outdoor ones? What’s the deal with those small antennas you see virtually hidden on streetlights and traffic light poles?
The answer to these questions and many more are available in CommScope’s updated version of the “Understanding the RF Path” eBook.
As the world’s networks have continued to evolve from 2G to 3G to 4G and soon to 5G, CommScope has evolved to help networks around the globe maximize their potential.

CommScope is pleased to share its knowledge in a refreshed edition of the lauded “Understanding the RF Path” eBook. This updated eBook explains the science and art behind modern cellular networks. Understanding the RF path shows you the technology, practices and innovations that make them possible, including:

  • Cell site development, lightning protection and co-siting strategies
  • Base station antennas, microwave and fiber backhaul, and cabling infrastructure
  • Overcoming the challenges of interference and limited spectrum
  • Exciting new technologies like C-RAN, in-building wireless solutions, and Metro Cells that are laying the foundation for 5G.