85% of network failures are caused by dirty connectors. The connectors entrusted to carry the critical information that passes through your network deserve far more than a wipe on a t-shirt. As data center bandwidth continues to increase, adherence to best practice fiber endface cleaning and inspection methods must improve. Download AFL’s best practices guide for cleaning.
This webinar will provide an overview of port breakout, defined as taking a parallel port and breaking it down to a lower speed port in the cabling (40G- 10G, etc.), and its implications on structured cabling. We will also cover a new trend of certain customers wanting to break out transceiver ports at the transceiver interface and not in the structured cabling. This trend is leading the industry to evaluate new smaller form factor connectors. We will introduce the proposed new connector designs and discuss the applications where they will potentially be used.
Infinite Electronics brand L-com has launched a new series of latching USB 3.0 cables that feature latching Type-A male connectors to ensure a secure connection even when exposed to heavy vibration. Standard USB 3.0 connectors employ a friction fit design and can disconnect from the mating jack when subject to vibration or pulling.
Expanded beam connectors have a high tolerance for dirt and debris, but EB fiber optic systems are not immune to contamination. They should be cleaned routinely but standard fiber optic cleaning tools simply will not work. The CleanStixx™ EB swab can clean 1.2mm and larger EB connectors. The porous, thermally-sintered, variable-density polymer tip fits over the lens of the EB connector and removes dust, liquids and finger prints delivering a fast, reliable fiber optic network
To handle higher bandwidth, improve network density, and prepare for future upgrades, more data center designers and network managers are moving to multi-fiber push-on connections or MPOs in their fiber network infrastructure. This White Paper provides an overview of all things MPO, including fiber counts, color coding, cleaning, and polarity considerations.
The QSFP-DD multi-source agreement recognizes three duplex optical connectors: the CS, SN, and MDC. All three are duplex connectors that are characterized as very small form factor (VSFF).
This webcast begins with a look at the evolving state of data center optics. It examines such questions as what’s unique about data center requirements, why systems vendors are entering the transceiver space as traditional suppliers are leaving it, what role coherent may play and where, and whether data center optics development has become too expensive to encourage potentially innovative newcomers? Panelists will then address how data center networking is affecting optical connectivity requirements and will review the mass adoption of LC and MPO connectors, new technology for 400 Gigabit Ethernet requirements as well as what the future might hold for such applications as connecting fiber to Photonic Integrated Circuits (PICs) and coupling for co-packaged optics as well as other emerging applications.
This video discusses best practices for cleaning MPO connectors.
IIoT brings together a range of industrial devices that all communicate over a common Ethernet protocol, enabling the sharing of information across multiple industrial systems. Industrial Ethernet connectors need to stand up to harsher mechanical factors (vibration, force and impact), the potential for ingress (dust and liquids), climate and chemicals (temperature, radiation and pollutants) and electromagnetic interference – these factors determine standards-based M.I.C.E. parameters for classifying components in an industrial network.This article looks at the types of connectors available for emerging industrial Ethernet applications.
The global fiber optic connectors industry report is poised to reach USD 5.9 billion by 2025. Major include rising demand for increasing bandwidth, rising demand for data volume and transmission speed in data centers within the telecommunication industry.