HUBER+SUHNER has been a major supplier to the traditional mobile and fixed line telecom and carrier market since its inception, and our technologies are used in all areas of their networks. Modern challenges abound, and with their ongoing transition from the traditional voice traffic optimised networks into a world of all-IP networks, we are the logical supplier choice for smoothing this difficult transition. Our past history and experience means that we already understand the needs and challenges that drive these service providers, but with our innovative problem-solving solutions, we can already address their needs by planning for the new, whilst supporting the traditional.
The evolution of the traditional business model of telecom providers also adds to the challenges they face. Long gone is telephony service only provision, nowadays comprising most commonly triple play (fixed line telephony, TV and hi-speed internet) at the very least, often with mobile telephony as a 4th option. Each of these new services demands a differing approach and adds new challenges, but with HUBER+SUHNER, we are ideally placed to advise and assist in this transition.
CDR, NGR and 19" equipment cabinets
HUBER+SUHNER offers a wide range of Optical Distribution Frames (ODF) and 19" equipment cabinets to meet all requirements. HUBER+SUHNER’s comprehensive range of equipment cabinets is designed to fulfil the diverse needs of the typical data center operator. The cabinet range is based around a common construction of anodised aluminium extrusions which match the innovative CDR passive optical rack system.
IANOS® high-density inter-connects
The IANOS system from HUBER+SUHNER is a state of the art fiber optic management system which facilitates fast, flexible and future-proofed connectivity in the data center. As its name suggests "IANOS" (as in Roman mythology) looks to the past as well as to the future. This means that "IANOS" is a combination of previous experience and valuable insight into the future.
Data centers are constantly adapting to reflect the demands placed on them, and todays fiber management systems need to accommodate these changes with the minimum amount of cost, time and disruption. As data centers evolve, we see a broad mixture of applications and data rates depending on the location, the business model and of course the data demand. IANOS accommodates these changes by offering the widest range of connectivity scenarios in a single generic platform.
LISA - side access fiber management systems
LISA is a dedicated high-density fiber management system commonly used as a centralised cross connect in the main distribution area (MDA) of large data centers. With a 300 mm depth and full access from the front side; LISA cabinets can be positioned against unused walls, at the end of cold aisles or back-to-back on a single floor tile.
LISA racks have a density of 1500 LC ports per rack or 3000 LC ports per tile when placed back-to-back. For MTP applications the density is 1080 or 2160 MTP ports respectively.
The main difference between LISA and conventional 19" panels is the fact that LISA is fully accessible from the front side. This means that users can install, patch or remove fiber trays simply by sliding out the tray. This feature is much more attractive than 19" panels which generally require access to the rear side of the cabinet. Patching to the LISA rack is fast and easy and a dedicated slack storage area for jumpers allows users to make "any-to-any" patching with just two lengths of cord.
LISA - front access fiber management systems
The LISA front access system is focused on speed of installation and network security during installation or maintenance. The LISA front access system represents a modular group of products that enables seamless connection of passive optical networks especially in central office environments. Reliability and performance are key to the success of our industry which is why we have ensured that the highest level of fiber protection and bend-radius limitation are standard across all front access system solutions. The center piece of the front access system is a unique and versatile compact module that can be used for pigtail, direct cable splicing or for the integration of pre-connectorised passive components such as splitters.
LISA compact modules for MultiCircuit (MCM) applications combine simple installation and maximum security within an optical network. An integrated loose tube storage facility in each module allows easy removal of the splicing machine without disturbing neighbouring modules. In telecommunication environments, the compact module is particularly suitable for simple physical connections between the equipment and the passive infrastructure by means of inter-connect or cross-connect.
KYPROS premium - pre-term copper solutions
HUBER+SUHNER pre-terminated KYPROS premium portfolio complements the standard KYPROS portfolio by offering a more high-end alternative. KYPROS premium is very easy to install and increases user-friendliness.
KYPROS premium - non pre-term copper solutions
HUBER+SUHNER offers a non pre-term high-end copper portfolio for cost-effective high-performance balanced copper systems able to support applications up to and including 10GBase-T and remote powering (PoE+).
KYPROS - pre-term copper solutions
HUBER+SUHNER pre-terminated copper solutions provide an easily installed and cost effective alternative to individual field-terminated component-based cabling. Combining factory terminated modules with high-performance cable, pre-terminated trunk cables are designed to simplify the installation in data centres and other high-density environments.
Pre-terminated systems are available to suit panel-to-panel and switch-to-panel applications and customers can pre-configure length and connector types to match their specific needs.
KYPROS - non pre-term copper portfolio
HUBER+SUHNER designs and manufactures cost-effective high-performance balanced copper systems to support applications up to and including 10GBase-T and remote powering (PoE+). Our tailored system solutions offer proven and reliable performance characteristics which exceed all of the relevant cabling standards found on the international market.
HUBER+SUHNER copper systems allow operators to utilise the full capacity and transmission distance of their balanced copper infrastructure without compromising flexibility and handling. Built from high quality, proven components, the Category 6/Class E and Category 6A/Class EA system solutions operate to 250 and 500 MHz respectively, with overcapacity built into selected components for enhanced longevity and upgradability.
Each component is compliant to the relevant IEC or TIA component standard, and when installed in combination, provide link and channel performance which exceeds the ISO/IEC, EN and TIA standards. For optimum performance and full system warranty, the HUBER+SUHNER copper system must be installed by a trained and qualified HUBER+SUHNER installation partner.
Polatis' highly reliable piezoelectric Directlight® beam-steering technology sets the industry standard for lowest optical loss and highest performance. With more than a billion port-hours accumulated on deployed units, the Polatis technology platform delivers a broad range of class-leading all-optical matrix switch products into demanding applications. At the core of Polatis optical switches is our patented DirectLight beam-steering technology that makes connections using compact piezoelectric actuators to align collimated beams of light from opposing arrays of input and output fibers with minimal loss, distortion or interference between paths. Alignment is maintained using feedback from integrated position sensors to ensure connection stability over time, temperature and external disturbances. Switching occurs completely independently of the power level, colour or direction of light on the path, enabling pre-provisioning of dark fiber and avoiding concatenation of switching delays across mesh or multi-stage switched optical networks. Polatis optical switches are fully non-blocking and available in sizes from 4x4 to 384x384.