C-RAN Solutions – Transport, Optical & RF Testing for all Elements of the C-RAN Network
For those responsible for installing and maintaining the network, the engineering teams will be working on a wider range of technologies including wireless, optical and transport. Test solutions need to be matched to the technologies in the network and flexible enough to troubleshoot a wide range of issues.
Adtell Integration has a long history of testing all aspects of the C-RAN. Adtell Integration uses Anritsu instruments which continue to evolve to meet the new challenges of testing the C-RAN networks being rolled out today.
Key Network Elements
With the large increase in mobile data traffic, network operators are moving the BBU (BaseBand Units) from macro cell sites to a common central location allowing greater flexibility and cost savings. The connection from the BBU to the RRH (Remote Radio Head) is most commonly via CPRI at rates between 614.4 kbps to 10,137.6 Mbps.
Core DWDM (Dense Wavelength Division Multiplexing) ring
Today’s networks are interconnected by core DWDM fiber rings, interconnecting major metropolitan areas and populations. These networks consist of multiple 100 Gbps and 10 Gbps links over a single fiber, each on their own wavelengths across the C (1530–1565 nm) and L (1565–1625 nm) bands.
Metro DWDM ring
Consisting of multiple rings per metropolitan area allowing the network bandwidth to be locally isolated. With rapidly growing demand for data, cloud resources are now being localized to within the metro ring, removing the requirement of the traffic transiting the core network. Multiple 10 Gbps, and some 100 Gbps, links each on their own wavelength across the C and L bands.
A cell in a mobile phone network that provides network coverage using a high power cellular radio base station. The macro cell may be mounted on a tall building or a dedicated radio tower. Typically, the base transceiver station (BTS) radios are located in an equipment room at the base of the tower or on the rooftop. High power radios provide coverage up to 20 km. Connection back to the core network is typically by microwave link or optical fiber.
Low power radios used in the cellular network to provide densification in urban environments. Range may be limited to 0.5 km to 4 km. Typically the integrated radio is mounted on existing street infrastructure such as lampposts or on the side of a building.
Remote Radio Head (RRH)
Part of a distributed base station that locates the BBUs at the base of a cell tower, or even remotely at a BBU hotel, and the radios at the top of the tower close to the antennas. The compact RRH is connected to the BBU via a fiber optic cable, typically using CPRI
protocols. Use of RRH reduces power loss in long RF cable runs and potentially improves network flexibility, especially to distribute load at peak times.
The name given to a single location which houses the baseband units of many distributed RRH. A BBU hotel can be many kilometers from the radio heads, typically using fibers running CPRI protocols between the two. By locating multiple BBU at a common location, radio resources can be allocated dynamically as demand changes. The radios can be mounted closer to the antenna which reduces RF cable losses and may improve PIM performance. OPEX may also be reduced as smaller equipment rooms and less cooling is required at each site.
A point to point radio link that is often used to connect remote cell sites back to the core network, in place of optical fiber.
DAS (Distributed Antenna Systems)
The most common method selected by operators and building owners to achieve in-building coverage and capacity. DAS are able to accept inputs from a variety of sources making them equipment manufacturer and technology neutral (2G, 3G, 4G).
Signals from one or more RF sources are distributed throughout a venue using only passive components: coaxial cable, splitters and antennas. Sectorization is achieved by dedicated RF cable feeds to each antenna branch. Typically used for small DAS installations such as SME offices, conference centers and hotels.
Downlink signals from one or more RF sources are conditioned, combined and converted to light for distribution over fiber cable to radio units located around the venue. Radio units convert the signal back to RF, amplify and re-broadcast them. This allows for greater range within the DAS and is typically used at large sports stadiums, airports and very tall buildings.
The best planned networks are subject to performance degradation from illegal or accidental radio interferers such as unlicensed radio microphones, radios on visiting commercial shipping, leaking cable TV cables or illegal FM transmitters.
Common Public Radio Interface (CPRI)
CPRI is an open specification for an interface between Radio Equipment Controllers (REC) often referred to as BBU, and Radio Equipment (RE), often referred to as RRH. The use of a CPRI interface run over a single mode or multi-mode fiber enables the radio equipment to be mounted at the top of a tower very close to the antennas. The BBU and RRH can be up to 25 km apart facilitating the use of BBU hotels so the network can be configured dynamically as demand changes. The latest specification version 7.0 supports up to 24 Gbps line rates.
A general term for the layer of the OSI Reference Model that provides connection services for high layer applications. Optical Transport Networks (OTN) run up to 400 Gbps, other transport technologies include: Ethernet, CPRI/OBSAI, SDH/SONET, PDH/DSn.