It takes just 0.02 seconds for a chameleon to grab its lunch. But in today’s communications networks, things move at even greater speeds. So much so that measurement accuracy and precision to less than 0.000000001 of a second is now required to ensure network timing and synchronization meets international standards. And deliver the robust, dependable performance that we can all dine on.

On the Brink of 5G

5G Tutorial

Now we have long since passed the days of 3G, 3.5G, and are into 4G and 4G advanced. We’re already talking about 5G coming soon. No-one is asking why anymore, because ever since the first iPhones and their equivalents came along, the appetite for mobile data has been insatiable. So what is 5G? According to the ITU, 5G (or what they term “IMT2020”), is data rates between 100Mbit/s and 1Gbit/s to the handset. More importantly, the connection density needs to be high, supporting up to 1 million connections per square kilometre. If this seems high, then I suggest you visit one of the larger metro stations in Tokyo and observe the vast stream of humanity entering and exiting the station at all hours of the day and night. To achieve this, the density of basestations needs to be much higher than traditional deployments, implying heavy use of small cells and so-called “front-haul” architectures.

From a synchronization perspective, front-haul architectures pose a tough set of challenges. Firstly, many of the small cells or remote radio units will be indoors, and have no access to time from GNSS. Secondly, the timing accuracy required in the front-haul network is much higher than it has been in the back-haul. This means another upgrade in network-delivered synchronization capability, and the ITU have embarked on defining the performance of a new set of clocks to meet the requirements of the 5G network. The first of these, G.8272.1 is likely to be agreed later this year, with the others to follow in 2017. Synchronization technology looks like it isn’t going out of fashion any time soon!


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