Fluke Networks has revealed CertiFiber Max, a third-generation optical loss test set (OLTS). This tool is tailored for the growing complexities of high-density data centre environments. Leveraging the Versiv platform and integrated with LinkWare, CertiFiber Max aims to offer technicians the ability to certify up to 24 fibres in under one second, addressing the needs of today's fibre infrastructure.
The acceleration in fibre density and the tightening performance margins driven by advancements in AI, cloud technology, and next-generation infrastructure have presented contractors with increasing pressures. Existing tools often falter, either restricted by limited fibre counts or hampered by cumbersome fan-out cables and adapters that add layers of complexity and potential for errors.
In response, CertiFiber Max has been engineered to deliver faster testing capabilities, heightened accuracy, and enduring flexibility through its field-replaceable UniPort adapters. These adapters aim to support a variety of current and emerging connector types, including 12, 16, and 24 multi-fibre push-ons (MPO) and MMCs, so that technicians can be equipped to handle the evolution of data centre architectures.
These UniPort adapters are designed to protect tester ports from damages while allowing easy upgrading and replacement directly in the field. This feature not only extends the tester's lifespan but also maintains reliability amid demanding schedules, safeguarding contractors against costly equipment replacements as standards continue to develop.
The burgeoning demand for more efficient and precise fibre certification has led to an increased adoption of MMC connectors, known for their ultra-high-performance capabilities. Using three-row mechanical transfer (TMT) ferrule technology, these connectors triple the density of conventional MPO connectors. Consequently, this increases deployment in contemporary high-density networks.
The CertiFiber Max solution is designed with high-efficiency workflows for dense fibre environments. It measures loss, length, and polarity across multiple fibres swiftly, enabling greater precision through the one-jumper reference method, a standards-recommended practice.
The rise of AI and the resultant infrastructure demands further underscore the necessity for highly reliable testing solutions. As David Newman comments, ultra-low loss standards and increasing fibre counts necessitate faster, more precise performance testing.
