Category: Connectors

MPO splitter is configured as LC to MPO fiber connectors

Korea’s OptoNest has unveiled an optical MPO splitter that features an LC-type connector input and a 12-channel MPO connector as the output port. The splitter, which conforms to TIA/EIA 604-5 and IEC 61754-7 standards and is suitable for RoHS requirements, measures 82x12x8 mm and is designed to remove the chance of performance degradation from bending or folding of the optical fiber cable. The splitter is designed not to expose the fiber-optic cable in between. OptoNest is aiming the splitter at fiber to the home (FTTH) and 5G mobile network applications.

Connect the dots

The one constant that holds true to all fiber optic connectors is the importance of the surface quality of the fiber optic connector end-face. Scratches, embedded dust particles and residues in the contact zone of a mated connector pair will disrupt the path through which the light travels, as it crosses out of the transmitting connector’s end-face into the receiving connector’s end-face. The best way to get optimal performance from fiber optic connections is to proactively inspect and clean both ends of a mated connector pair.

Multifiber Mania: Understanding MPO Connections

MPO connectors are the most likely solution to migrate to 100, 200 and 400 Gb/s. If managers and contractors don’t use MPO or MTP® options and instead stick with LC connectivity, they’re going to end up limiting themselves to either long-reach transceiver applications for single mode, or some type of wave division multiplexing (WDM) technology. Getting started on using MPOs now will set organizations up for success, as higher speeds from 25 Gb/s to 400 Gb/s become the new norm.

Fiber Optic Connector Market To Set Astonishing Growth

The global Fiber Optic Connector Market is expected to reach USD 5.9 billion by 2025. Major factors driving growth include increasing bandwidth, rising demand for data volume and transmission speed in data centers within the telecommunication industry. Additionally, rising application of fiber optic connectors in a gamut of application areas within the medical and pharmaceutical sector

Sumitomo Electric, Senko partner on AirMT noncontact multi-fiber connector technology

Sumitomo Electric and Senko have partnered on new AirMT multi-fiber optical connectors which offer an alternative to physical contact multi-fiber optical connectivity, as found in such formats as MPO connectors. AirMT connectors eliminate the problem with  traditional MPO connectors, which require high spring force to achieve physical contact for MT-to-MT ferrules, and suffer from high sensitivity to dust contamination.

Self-cleaning, self-protecting multifiber connector

Swick Designs’ new SWK Connector is a self-cleaning and self-protecting connector that accommodates polarity change with a single flip and boasts low-loss performance. A unique characteristic is the SWK’s rotating, covered Shield Shroud that cleans the ferrule endfaces and protects them from contaminants. Swick Designs says the Shield Shroud reduces debris and contaminants up to 98.99%.

Choosing the right connectors for simplex and duplex optical fibers.

Fiber optic LC connectors are available in simplex and duplex options. A simplex optical fiber has a single strand of glass or plastic fiber, and is only capable of transmitting data in one direction. This makes it suitable for applications that only need this uni-directional capability, for example transmitting data from a sensor in an Internet of Things (IoT) system.A duplex optical fiber, on the other hand, consists of two strands of fiber, and can therefore transmit data in both directions. It may be ‘half duplex’, that can only send data in one direction at a time, or ‘full duplex’, that can handle simultaneous, bi-directional communications – for example, for an IP telephony application.