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Thursday, 30 May 2019

Synchronization for 5G - Requirements, Solutions & Architecture

Couple of months back, Oscilloquartz, an ADVA company, announced that BT is leveraging its high-capacity, future-proof Oscilloquartz synchronization technology to bring 4G coverage to previously underserved areas and begin the rollout of 5G services across the UK. Prior to this deployment, BT’s timing network was based purely on frequency synchronization. With the new solution, it can now distribute stable and accurate phase and time-of-day information, enabling BT to dramatically improve the use of its spectrum. The new synchronization network is built on the OSA 5430 and OSA 5440 and integrated with ADVA’s network management solution. The technology provides the sub-microsecond accuracy required for next-generation mobile applications together with hardware redundancy for unbeatable resilience.

At the Small Cell World Summit held earlier this month, Gil Biran's presentation outlined the key synchronization requirements and solutions for mobile networks in the era of 5G. Check out the slide deck embedded below to discover how longest holdover and highest precision can be achieved with the "industry's most comprehensive timing technology portfolio".



This video of OSA 5430, the first high-capacity grandmaster clock available on the market to support PTP, NTP and SyncE over multiple 10Gbit/s Ethernet interfaces is also worth a watch. It's also the first device of its kind to provide redundancy and protection.



Tuesday, 14 May 2019

T-Mobile USA's Indoor CellSpot (a.k.a. Femtocells)

Sometime back I saw this tweet by T-Mobile CTO Neville Ray


I started wondering if T-Mo had femtocells and voila!

Pic Source: Dane Powell

According to the T-Mobile website, there are 4 types of devices:

  1. 4G LTE CellSpot V1 
  2. 4G LTE CellSpot V2 
  3. 4G LTE Signal Booster 
  4. 4G LTE Signal Booster Duo
The product comparison chart can be seen below
Now let's look at the Functionality comparison chart
As you can see, the cellspots require an ethernet connection as they create a small coverage bubble while the Signal boosters are just repeaters.

You can get detailed specifications here on 4G LTE CellSpot V1 and 4G LTE CellSpot V2.

Detailed specifications here on 4G LTE Signal Booster and 4G LTE Signal Booster Duo.

In Addition, T-Mobile also supports Wi-Fi calling and also sells T-Mobile 'Wi-Fi CellSpot AC1900 Gigabit Router'

Sunday, 12 May 2019

Impact of Small Cells on Key Enterprise Markets


I missed the last CW (Cambridge Wireless) Small Cells event 'Are small cells ready for private LTE primetime in the lead-up to 5G?'.


From the CW website:

The limited progress towards excellent in-building cellular coverage is well-attested, and in many enterprise and industrial sectors, this is not just frustrating, but has a tangible impact on productivity and agility. In a wide range of industries, from transport to logistics to healthcare, there is pent-up demand for highly reliable, highly secure cellular connectivity, which often needs linking with localised applications and data.

That demand is only growing even more with the advent of IoT applications and edge computing. This is a huge opportunity for small cells, even before 5G, but these sectors cannot all be served by one generic network. Each has its own particular requirements, which need to be well understood by suppliers and partners, so that the deployment can be carefully aligned to business and performance objectives.

Excellent mobile connectivity indoors and out is the baseline requirement – each sector has its own additional needs, which will help to make the business case add up. For some, low latency may be important, for others, massive device density or enhanced security. All of these can be delivered optimally by small cells, but the design of the network, and the business model to deploy it – e.g. neutral host or private network – must be tailored to the enterprise, if users and suppliers are both to achieve the best ROI.

This event focuses on the real-world issues needed for the success of small cells in the emerging private LTE market.

The presentations are available for a limited time for non-CW members here.

The following presentations are available:

  • 'Is private LTE disruptive' by Ian Taylor, Quortus [PDF]
  • 'Small cells in private networks: An Overview' by Caroline Gabriel, Rethink Technology Research [PDF]
  • 'Bringing connectivity to a mechanical test centre' by Peter Stoker, AutoAir [PDF]
  • 'Private Networks for Critical Comms & IoT' by Tadhg Kenny, Druid Software Ltd [PDF]
  • 'Business ready applications, not the connectivity solution, will be the driver for private networks' by David Rose, Veea Systems Ltd [PDF]


Related Posts:

Saturday, 11 May 2019

AMN's Ultra-low cost sites


From an slightly old tweet by Erik Hersman: "AMN has started rolling out ultra-low cost small 10m towers to work in rural villages in Zambia, Cameroon and a couple other countries. Communities value them so much that they build their own fences and security."

Rural connectivity in the developing world is a big issue and this tweet just illustrates the point that when connectivity is available, people value it and make sure nobody takes it away.


In a earlier blog post on 3G4G, we saw the 10 key challenges listed by AMN for bringing connectivity to rural areas.

In a recent news, Vanu announced the expansion of its ongoing agreement with Africa Mobile Networks (AMN) to supply mobile network infrastructure in support of AMN’s mission to serve rural communities in sub-Saharan Africa. With orders exceeding 2,500 systems this year, AMN has now placed orders for more than 3,000 Vanu systems over the last two years

“AMN and Vanu both view small-cell network architectures powered by solar energy to be the best way to extend service to the unconnected. We are privileged to be a technology supplier for AMN’s networks in Africa and we see a significant opportunity for our organizations to positively affect more communities in more countries in the months ahead.”

To efficiently cover villages, Vanu uses a combination of specialized equipment, tools and services, including low TCO (total cost of ownership) cell sites, mapping tools and network planning tools (to ensure sites are built in optimal locations), as well as monitoring, optimization and support services (to ensure maintenance resources are used efficiently).

Vanu’s equipment, tools and services enable MNOs and partners, such as AMN, to provide off-grid coverage profitably. In addition, Vanu’s unique high-resolution coverage mapping tool, VanuMaps, provide MNOs, their partners and potential investors with the high-resolution coverage and population data needed to more accurately and efficiently identify the return on investment afforded by serving previously uncovered villages.

The mission of AMN is to build mobile network base stations serving rural communities in sub-Saharan Africa which have no existing service, providing existing licensed mobile network operators with a capex-free route to add new subscribers and new revenues and with incremental costs which deliver guaranteed operating profits – and with sufficient population to deliver positive operating profits and cash flows for its shareholders.

More details are not available but will be added when available.