Small Cell Vs Das

Small Cell Vs Das. Small Cells are also known as outdoor distributed antenna systems (DAS) However for clarity this article will distinguish Small Cells as providing coverage and capacity outdoors Distributed Antenna Systems (DAS) are also known as indoor distributed antenna systems (DAS).

DAS Small cell vs DAS essentially comes down to how the systems are configured and operated With small cell each individual node has a single power supply The cells work on their own unlike DAS where all antennas connected to a remote function as one unit DAS is also more versatile able to support several frequencies whereas small cells can only support one or in some cases two This translates into DAS being able to handle multiple carriers and small cell being primarily single.

How do DAS and small cells compare? Telecoms.com

Supply DAS uses one central power supply for multiple nodes but small cell typically requires dedicated power supply for each individual node Cell Organization DAS can use many nodes simultaneously to function as a single large cell while small cell functions as a network of individual cells Frequency Support DAS can support multiple frequencies (2G 3G 4G/LTE 5G VHF bands) small cell typically supports a single defined frequency Multiple Service Provider Support DAS can be shared by multiple carriers each connecting their own base stations to the shared RF distribution system.

Small Cells Vs. DAS Vs. Mobile Repeaters – Which is right for

Small CellsActive Distributed Antenna SystemsRepeatersMobile Private NetworksIf your business does not face the issue of influxes in traffic Small Cellsmay be the solution for you Small Cells can offer businesses struggling with connectivity a cost and timeeffective way to boost their voice and data coverage The network of small antennas are currently being used and working successfully in an array of properties from urban outdoor venues to rural areas struggling with connectivity So how does it work? The system works through the placement of small cell nodes within the “dead zone” areas The network of nodes that are placed around the space work individually and can handle up to 25 users at a time Each connected to their own power supply resulting in every small cell connection having its very own backhaul pipe (link to the larger network) Recommended for 1 Time sensitive properties (Small cells can be deployed in 6 – 12 weeks) 2 Properties of 10000 SQF – 400000 SQF 3 Lower budgets Challenges 1 It can often be difficult to connect equipment Alternatively if you are looking for a versatile and easily scalable solution that accommodates a large number of users Active DASmay be more suited to you By generating its very own signal Active DAS can be deployed in properties such as underground car parks typically unable to offer connection to its users So how does it work? With the use of fibre optic cabling this system can support several frequencies and handle multiple carriers at the same time In most cases antennas are connected to a remote function as one unit and used to carry the signal The signal is then passed through fibre optic cables to the BTS’s installed throughout the property Recommended for 1 Hosting significant numbers of users (one BTS can handle up to 2000 users) 2 Large and highcapacity properties with multiple floors such as stadiums and universities 3 Easy scalability Challenges 1 It can often be difficult to connect equipment back to the main network in larger properties 2 The deploy Mobile repeaters to put it simply amplify the signal of a mobile phone There is a common misconception that all mobile repeaters are illegal however this is not the case as long as you do your research and use boosters as permitted you should be good to go Learn more about the legalities of mobile repeaters here So how does it work? A static indoor repeater works by fixing a high gain antenna in an external location with the strongest possible mobile signal This signal is then carried into the network unit which is connected to coverage units found inside and throughout the building The coverage units talk to one another forming a “super cell” within the property preventing blackspots dropped calls and poor data throughput Recommended for 1 Small to medium premises such as office buildings banks and industrial units 2 Coverage of 15000 SQF per system multiple systems may be installed 3 Vehicles 4 Lower budgets Pros of Mobile Repeaters 1 Installation times are Worth mentioning an MPN does not boost your signal and connectivity like the three prior systems do Instead MPN’s act as a private wireless network using the same technologies as our mobile networks (such as 5G) This makes it perfect for IoT applications for settings such as airports wind farms and agritech The difference between these private networks is the use of Private LTE/5G that allows your business to protect and provide security when handling sensitive data Unsure if your property needs this read more about it here.