The Different Types of Planar Lightwave Circuit Splitter

You might have been asked by your technician or electrician what the different types of Planar lightwave circuit (PLC) splitters are. In this article, you will learn about the Fan-out, Tray and Insert types of this component. Here are some of the advantages and disadvantages of each type of splitter. Read on to discover the best option for your application. This device will make it easier for you to connect multiple devices at one location.

Planar lightwave circuit (PLC) splitter

The market for the planar lightwave circuit splitter is largely driven by the rising demand for compact and smaller components. Compared to traditional lightwave splitters, this device is highly compact, requires only few components, and can be installed in existing transfer boxes, thereby reducing installation space. In addition, the PLC splitter provides excellent optical performance and high reliability, thereby increasing the device’s application spectrum.

This optical power management device is fabricated using silica glass waveguide technology. The main advantages of the planar lightwave circuit splitter include high reliability, low insertion loss, a wide wavelength range, and excellent channel-to-channel uniformity. It has become an indispensable component in optical communication systems, including FTTx systems, LANs, and Metro networks. The PLC splitter is also available in miniature packages.

Planar lightwave circuit splitters regulate optical signals by controlling their power and wavelength. They also deliver a reliable light distribution due to their wide wavelength range. They also come with improved uniformity and reliability, and are smaller in size compared to traditional biconic tapered couplers. Furthermore, these devices are easy to integrate with lenses, filters, and micro-optic elements. You can even use multiple PLC splitters in one system.

A planar lightwave circuit splitter is a type of optical power management device fabricated using silica optical waveguide technology. It is a device that divides optical signals from a central office to multiple premise locations. Typical applications of the PLC splitter include a PON network, which uses it to distribute optical signals. It is also a cost-effective device that is capable of meeting the ever-changing needs of network operators. Its versatility and small form factor makes it an ideal solution for a variety of networking requirements.

Insert type

PLC splitters are divided into two main types: end-mounted and tray-mounted. End-mounted devices are generally more affordable, but they are limited in wavelength. They also suffer from increased insertion losses at higher splits. Rack-mounted models, on the other hand, are typically more expensive, but offer equal splitter ratios across all branches and low failure rates. Listed below are some of the benefits of end-mounted PLCs.

Excessive insertion loss is one of the biggest problems with PLC splitters. Excessive insertion loss results from differences in pitch and depth. The pitch and depth of v-grooves also play a role in the nonuniformity of splitting ratio. To combat this problem, many manufacturers use high-quality ferrules, while polishing methods reduce the nonuniformity.

FTTx projects are popular places to use insert-type PLC splitters. The low space requirements and fast installation of insert-type PLC splitters help in deployment of FTTx projects. Rack-mounted PLC splitters are designed to meet the cabling density requirements of high-density installations and are installed in 19-inch cabinets. They are a cost-effective solution for optical signal distribution. This versatile type of splitter is available in a variety of configurations and packaging.

Tray type

A Tray type PLC splitter is a space-saving cable management device that is applied to branch optical signal. Its international 19-inch form factor and compact design can help you deploy the device in an ODF frame. The ports are clearly marked and will reduce faults due to incorrect connections. A Tray type PLC splitter is a versatile tool that is used in a variety of applications, including FTTH networks.

It is fabricated using silica optical waveguide technology. It is small, reliable, and has a wide operating wavelength. It is widely used in the FTTX PON industry because it supports multiple industry standards for optical signal distribution. It can split optical signals without compromising on reliability. It is available in both rack-mount and tray-type models. For more information on how a PLC splitter can help you, read on.

A PLC splitter has two types of inputs: one with a fiber connector and another without. A Tray type is commonly installed in an optical distribution frame or box. It supports FC, SC, ST, or LC connectors. It is ideal for applications that require splitting near the OLT. Rack-mount splitters are widely used in outdoor applications. These devices are 19-inch rack units. If you are looking for a PLC splitter, consider the following factors.

Fan-out splitter

The Fan-out PLC splitter is a passive optical power management device that uses silica waveguide structures to evenly split and distribute the optical signal to N separate output channels. The fanout is Telcordia GR 1221 CORE qualified and comes with robust fanout sections. This type of splitter can be used with various types of connectors, including optical fiber, ribbon, and loose buffer cables. This product can be plugged into a network cabinet or inserted into a distribution box.

The ABS PLC splitter is a space-saving unit that is compatible with international 19-inch rack units. The tray PLC splitter is ideal for indoor and outdoor applications. It supports SC, LC, FC, ST, and LC connectors and is designed for rack-mount installations. The rack-mount PLC splitter is easy to install and protects fiber optic splitters. The rack-mount version is designed for use on a 19-inch rack unit.

The blockless PLC splitter is a low-cost solution for optical signal distribution. Its features include low insertion loss and polarization-dependent loss, a wide range of operating wavelength, and a small package. The Precision Micro-optics 2xN is available in three different packaging styles. The blockless PLC splitter is available in block and bare-fiber packages. It is often used in FTTH projects.

PLC Splitter is the simplest and cheapest way to split optical signals. Its high-quality optical performance and minimal loss make it a very attractive option for optical networks. It is an effective light distribution solution for a variety of fiber networks. The ABS and bare fiber types are the most common for FTTx projects. With the bare fiber package, the PLC is easy to install and takes up little space. You can directly connect the fiber pigtails to a passive component.