Common Passive Fiber Optical Splitters
It is generally accepted that fiber, connectors, and splices rank is the most important passive devices. However, what closely following are tap ports, switches, wavelength-division multiplexers, bandwidth coupler, and splitter. These devices divide, route or combine multiple optical signals. Splitter is named by the function of the device while coupler is named by its working principle.Get more news about
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Fiber optic couplers either split optical signals into multiple paths or combine multiple signals on one path. Optical signals are more complex than electrical signals, making optical couplers trickier to design than their electrical counterparts. Like electrical currents, a flow of signal carriers, in this case, photons, comprise the optical signal. However, an optical signal does not flow through the receiver to the ground. Rather, at the receiver, a detector absorbs the signal flow. Multiple receivers, connected in a series, would receive no signal past the first receiver which would absorb the entire signal. Thus, multiple parallel optical output ports must divide the signal between the ports, reducing its magnitude. The number of input and output ports expressed as an N x M configuration characterizes a coupler. The letter N represents the number of input fibers, and M represents the number of output fibers. Fused couplers can be made in any configuration, but they commonly use multiples of two (2 x 2, 4 x 4, 8 x 8, etc.). The following picture shows a typical optical coupler.
Fiber optic splitter is a device that splits the fiber optic light into several parts by a certain ratio. The simplest couplers are fiber optic splitters. These devices possess at least three ports but may have more than 32 for more complex devices. Fiber optic splitters are important passive components used in FTTx networks. Two kinds of fiber splitters are most used: one is the traditional fused type fiber optic splitter FBT splitter, which features competitive prices. And the other is PLC fiber optic splitter, which is of compact size and suit for density applications.
Just like fiber patch cable, fiber splitters are usually with 0.9mm, 2mm or 3mm cables. 0.9mm outer diameter cable is mostly used in stainless steel tube package fiber optic splitters, while 2mm and 3mm cables are mostly used in box type package fiber splitters. Based on working wavelength difference there are a single window and dual window fiber optic splitters. And there are single mode fiber splitter and multimode fiber splitter. The picture below shows an optical splitter.
An optical coupler is generally used in applications that require links other than point-to-point links, which includes bidirectional links and local area network. (LAN). Moreover, it serves as an important component used in WDM systems to route and split signals, monitor the network, or combine signal and pump wavelengths for feeding optical amplifiers.
Fiber optic splitter can be used for FTTx/PON application. This helps to reduce the physical fiber usage or the basic quantity of required fibers. A single fiber can be split into many branches to support multiple end users. The strain on the fiber backbone can be greatly decreased through the application. In addition, fiber optic splitter can also be employed in the maintenance of long-haul network, cable TV ATM circuit or local area/metro area network.
Fiber optical splitter, also named fiber optic coupler or beam splitter, is a device that can distribute the optical signal (or power) from one fiber among two or more fibers. Fiber optic splitter is different from WDM(Wavelength Division Multiplexing) technology. WDM can divide the different wavelength fiber optic light into different channels, but fiber optic splitter divide the light power and send it to different channels.
The Optical Splitters “split” the input optical signal received by it between two optical outputs, simultaneously, in a pre-specified ratio 90:10 or 80:20. The most common type of fiber-optic splitter splits the output evenly, with half the signal going to one leg of the output and half going to the other. It is possible to get splitters that use a different split ratio, putting a larger amount of the signal to one side of the splitter than the other. Splitters are identified with a number that represents the signal division, such as 50/50 if the split is even, or 80/20 if 80% of the signal goes to one side and only 20% to the other.
Some types of the fiber-optic splitter are actually able to work in either direction. This means that if the device is installed in one way, it acts as a splitter and divides the incoming signal into two parts, sending out two separate outputs. If it is installed in reverse, it acts as a coupler, taking two incoming signals and combing them into a single output. Not every fiber-optic splitter can be used this way, but those that can are labeled as reversible or as coupler/splitters.
