La fibra óptica splitter es un pasivo dispositivo óptico que se puede dividir o separar, un haz de luz incidente en varios haces de luz en una determinada proporción
1x2, 1x4, 1x8, 1x16,1x32,1x64 montaje en rack de 1U tipo de PLC splitter y
2x2, 2x4, 2x8, 2x16, 2x32, 2x64 montaje en rack de 1U tipo de PLC divisores.
Hay cuatro tipos de conectores de fibra óptica son ampliamente utilizados para la terminación de las fibras individuales. Son LC, SC, ST y FC conectores. Conector LC tiene un 1,25 mm virola de cerámica de la que es sólo la mitad del tama?o de los otros conectores. Es un complemento conector usado generalmente para aplicaciones de alta densidad. SC usa el conector de 2,5 mm virola de cerámica y también cuenta con un complemento de conexión rápida cable de parcheo. Diferente de otros conectores, conector ST utiliza una bayoneta twist-lock conexión con 2.5 mm virola. Por otra parte, el FC es un tipo tornillo conector de 2,5 mm virola, pero cada vez es menos popular que el LC y conectores SC.
Cuando la terminación de la fibra óptica con conector, usted también debe decidir el tipo pulido si el conector no está pulido por adelantado. En general, el extremo del conector de la cara va a ser pulido para minimizar la reflexión posterior de la luz. El uso de la hembra de polaco estilos, la luz se puede propagar a través de los conectores con menor pérdida de fibra. Hay cuatro tipos de polaco estilos plana, PC, UPC y APC pule. Entre ellos, la UPC y la APC tipos son más populares en la industria. La principal diferencia entre la UPC y conectores APC es que el APC tipo de pulido en un 8 grados, mientras que la UPC no tiene ningún ángulo, pero ambos están ligeramente curvados para un mejor núcleo de la alineación. Como para el color, UPC conector es generalmente de color azul y APC conector es de color verde
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1x2 para montaje en Rack de Fibra Óptica - Acopladores Ópticos |
F-PLC-1x2 |  |
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1x2 Compacto LGX de Fibra Óptica -Acopladores Ópticos |
F-PLC-1x2-LGX |  |
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1x4 de montaje en Rack de Fibra Óptica -Acopladores Ópticos |
F-PLC-1x4 |  |
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1x4 Compacto LGX de Fibra Óptica -Acopladores Ópticos |
F-PLC-1x4-LGX |  |
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1x8 de montaje en Rack de Fibra Óptica -Acopladores Ópticos |
F-PLC 1x8 |  |
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1x16 de montaje en Rack de Fibra Óptica -Acopladores Ópticos |
F-PLC-1x16 |  |
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1x32 de montaje en Rack de Fibra Óptica -Acopladores Ópticos |
F-PLC-1x32 |  |
XX : SC/PC, SC/APC, ST/PC, ST/APC, LC/PC, LC/APC, FC/PC, FC/APC
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F-PLC Compact LGX
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Hello
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I have some questions about some products
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I need to know if you can advise me with the correct equipment
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I need to transport an RF signal to two locations from a digital headend to inject the RF signal to an EDFA and distribute it with a Gpon network.
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I have planned to use your F-RF-1310-TX with a Fiber Optic Couplers and terminate at the distant site with an F-RF-RX-RM
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okay
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what's the amount of splitter do you need?
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1x8
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if it is just 1x2 to go to two different towns; it would actually be better to just purchase to separate transmitters 32mW each
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with distances like 15km and 25km it would also better to get an optical OTDR reading and measure the loss in the fiber lines first
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the images of your product show distances of up to 40Km
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how much power is attenuated when using a 1x8 splitter
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This is based on regular loss of "perfect" conditions. If you are leasing the single-mode fiber, or if it has some loss, distortion, or bends then the optical reading with OTDR will be quite different. You should not depend on a product without knowing what the fiber itself is doing.
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chart is at the bottom of the webpage for splitters
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I get it
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actually there are not only two sites, there are several but right now I need to transport the signal to two sites
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so if you use a 32mW OTX plus a 1x8 coupler you have about a 5db budget to zero; our receiver will compensate maybe another 10 db; so maybe you will have 15 db to play with but with 25km of fiber that might not be enough.
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So if you do have use an EDFA, it will be much more expensive but will be your only option. This is why the OTDR reading of the optical fiber is so important; the project can be accomplished on the cheaper side, or could become very expensive.
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ok
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I think I should reach my "edfa" with 15db and then distribute with my GPON network
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I think I should reach my "edfa" with 15db and then distribute with my GPON network
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What would be the prices of the equipment that you suggest?
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what is the distance you need to cover with the 1550mw OTx
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we only make those in 8mW
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25 km
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Get an OTDR reading because 8mW on 1550 dissipates at .25db per km
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ok
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Insertion loss in passive optical splitters refers to the loss of power that occurs when light is split and distributed to multiple fibers. The term "insertion loss" is used to describe the power loss that occurs as light passes through an optical splitter. The insertion loss is usually measured in decibels (dB) and represents the ratio of the input power to the output power.
Insertion loss in passive optical splitters is caused by several factors, including the imperfections in the splitter's design, the difference in the refractive index of the materials used in the splitter, and the absorption of light by impurities in the splitter.
The most common types of passive optical splitters are the fused biconic taper (FBT) splitter and the planar lightwave circuit (PLC) splitter. FBT splitters are made by fusing two optical fibers together, while PLC splitters are made using micro-optics technology. Both types of splitters have their own unique insertion loss characteristics.
The insertion loss of the FBT splitter is typically higher than that of the PLC splitter, due to the fact that FBT splitters are made by fusing two optical fibers together, which can cause light to be lost due to imperfections in the splicing technique. On the other hand, PLC splitters are made using micro-optics technology, which reduces the insertion loss by allowing for more precise control of the light distribution.
Thor Fiber offers PLC splitters only F-PLC-1x2 - 1x128
The use of passive optical splitters results in each splitter having its own insertion loss. For example, the F-PLC-1x2 1x2 splitter has a 4.5dB insertion loss.
( please chek the insertion loss colum for each type of the splitter )
In summary, insertion loss in passive optical splitters refers to the loss of power that occurs when light is split and distributed to multiple fibers. This loss is caused by several factors such as imperfections in the splitter's design, the difference in the refractive index of the materials used and the absorption of light by impurities. The insertion loss of the FBT splitter is typically higher than that of the PLC splitter.
Compensación De Dispersión Módulo
La dispersión Módulo de Compensación de muy largas distancias de transporte.
Administrado Fibra Óptica Interruptor
Administrado de fibra óptica de Fibra Óptica Interruptor de la Redundancia del Sistema
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