PLC Splitter For Optical Network Applications
A PLC splitter is a type of optical device that allows you to split a single optical signal into multiple smaller ones. These devices are often used in optical network applications. They can be configured to meet your specific requirements, minimizing insertion loss and ensuring high performance. These devices are available as components, quick-connect cassettes, rack-mount designs, and custom modules.
SENKO’s LGX Box PLC splitter
The LGX Box PLC splitter is a compact and efficient light distribution solution. It features a robust metal body with a variety of pre-teminated adapters to meet your needs. The LGX Box is available in 1×2, 1×4, 1X8, 1X16, and 2X32 port configurations. It works with both single-mode and multimode optical fibers.
The LGX Box PLC Splitter is an important passive component of a Fiber to the Home (FTTH) network. It uses silica optical waveguide technology to allocate optical power from the central office to customer premises. It is also a space-saving networking solution. The LGX Box PLC Splitter is available in rack mount LGX Chassis and is widely used for FTTH Passive Optical Network as a passive optical splitter.
SENKO’s ABS PLC splitter
ABS PLC splitters are a common component of a standard 19″ rack unit. ABS cassette PLC optical splitters are also available in rack units. Many of these are available in custom designs. They are manufactured by leading plc splitter manufacturers in China. These splitters are easy to install, and they offer a wide range of functionality and features.
ABS optical splitter is easy to install and offers good protection for its internal optical components. It is also simple and reliable for installation in various cabling cabinets. It has high stability and reliability and can support multiple channels. It can handle various application requirements and strictly follows GR-1209 and GR-1221 standards.
SENKO’s 1xN Planar Light Wave Circuit (PLC) Splitters
Planar Light Wave Circuit (PLC) splitters are a popular option for wireless and cable Internet networks. These devices are more advanced than FBT and are built using semiconductor plc splitter technology. They are more compact and allow for greater functionality. They are also more flexible, as they allow for higher split ratios. They are available in a wide range of wavelengths and can be easily adjusted.
The compact structure of planar lightwave circuit splitters has made them popular for a variety of applications. They can fit into existing transfer boxes and don’t need to be installed at a special location. This compact design offers optimal optical performance and high reliability.
FBT elements are inexpensive and widely available. They are designed to split one wavelength at a time and are available in both pigtail and connectorized versions. They can be used for multiple applications, including data transmission, routing, and other applications.
The PLC Splitter is a powerful optical power management device that can split multiple optical signals. They are fabricated using silica optical waveguide technology and have many advantages. They feature a small footprint, high reliability, and good channel-to-channel uniformity. They are ideal for applications where you need a low-cost solution without compromising stability.
PLC Splitters regulate optical signals and provide reliable light distribution. They provide a larger operating wavelength range than low-cost fused biconic tapered couplers, as well as enhanced uniformity, reliability, and temperature range. PLC splitters also feature a smaller size and high-resolution splits. They are also very accurate, with low loss.
PLCs are used in fiber-optic networks. Some embodiments use silicon photonics chips with silicon modulators. They are also edge-coupled to a silicon photonics chip. This allows them to replace a laser source.
A typical PLC includes a silicon substrate 501 and multiple layers of glass. These layers are attached upside-down to a silicon photonics chip 301. Each PLC waveguide has two outer plc splitter cladding regions 502 and 504, and a core region 503 with a higher index. During the transmission of light, a grating on a waveguide combines the vertical beam into a horizontal guided mode.
SENKO’s 1xN FBT Splitters
SENKO’s 1xN FFT Splitters are built to meet the requirements of today’s network applications. They utilize P-CVD (Plasma Chemical Vapor Deposition) technology to offer guaranteed performance specifications and high reliability. They are available in a wide range of configurations and can handle all types of SM fiber. The company offers splitters in four-, eight-, and sixteen-port varieties.
Unlike PLC splitters, FBT splitters have a lower cost. They have less attenuation, but they are limited by the maximum number of splits they can handle. Also, FBT splitters tend to have a high failure rate, especially when they are used in networks with more than four splits. PLC splitters, on the other hand, provide equal splitter ratios in all branches and have a lower failure rate.
FBT splitters work on the principle of fused biconical taper (FBT). They use two fibers that are twisted around each other. The fibers are then protected by a glass tube made of silica powder or epoxy. The inner glass tube is then covered by a stainless steel tube and sealed with silicon. The FBT splitter is a cost-effective option because it is made of cheap materials.
The planar lightwave circuit splitter is more sophisticated than an FBT. It is made of a silicon-based material and can operate over a wider spectrum than FBT. In addition, the planar lightwave circuit splitter offers better uniformity and reliability and has a smaller size than FBT.