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Understanding Optical Fiber
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where P1 is the power measured before insertion of a connector and P2 is that measured after insertion SMA connectors, which represent the first generation of connection products, have insertion losses ranging from 060 to 080 dB The second generation of connectors, represented by biconic and ST types, have an insertion loss of approximately 050 dB Third-generation connectors, such as the LC and SC, have an insertion loss as low as 020 dB
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The EIA/TIA 568 Standard
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The performance requirements for installed optical fiber within a building were addressed by the Electronic Industry Association (EIA) and the Telecommunications Industry Association (TIA) in a joint publication, the EIA/TIA-568-B1 Commercial Building Telecommunications Cabling Standard This standard defines both the maximum level of optical attenuation and the maximum transmission distance for horizontal, backbone, and centralized optical fiber cabling connections As noted earlier, optical attenuation represents a reduction in light power or intensity as it flows through a cable, cable connections, and splices Thus, optical attenuation represents insertion loss on an end-to-end basis The actual attenuation permitted under the EIA/TIA 568-B1 specification depends on several factors, such as the type of fiber used, the number of connections used to mate one fiber to another the number , of splices, the optical wavelength of the transmitter the cable length and , whether cabling is horizontal, backbone, or centralized Horizontal cabling represents the cabling between the telecommunications outlet in a work area and the horizontal cross-connect In comparison, backbone cabling represents cabling between telecommunications rooms, while centralized cabling represents cabling from a work area to a centralized crossconnect via the use of pull-through cables, a splice, or an interconnect in a telecommunications room Table 34 summarizes EIA/TIA 568-B1 link loss and length for multimode 625/125- m and multimode 50/125- m fiber As indicated by the reference to two equations in the footnotes of the table, the maximum loss for centralized and backbone cabling is based on the number of connection pairs, the number of splices, and the length of the cable
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TABLE 34 EIA/TIA-568-B1 Multimode 625 and 50/125- m Optical Fiber Link Loss and Cable Length
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Cable Use Horizontal Centralized Backbone
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*Equation 1: Maximum loss Equation 2: Maximum loss
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Maximum loss 850 nm 20 dB See Eq 1* See Eq 1* 1300 nm 20 dB Eq 2 Eq 2 Maximum length, m 90 300 2000
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(number of
(number of connection pairs 075 dB) splices 03 dB) (length 35 dB/km) (number of connection pairs 0075 dB) splices 03 dB) (length 15 dB/km)
(number of
In examining the footnotes in Table 34, you will notice values associated with a mated connection (connector pair), splice, and cable length Those are the recommended values for each category of impairment that generates an optical loss Thus, you can compute a relevant loss budget by determining the length of the link, the number of connectors, and the number of splices and then use the relevant equation
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Team-Fly
CHAPTER
Light Sources and Detectors
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Four
By itself an optical fiber can be considered as equivalent to a hose without , water or a wire without current To provide the system with transmission capability an optical fiber requires a light source at one of its ends and a , light detector at the destination Thus, the purpose of this chapter is to become acquainted with the use of optical fiber as a transmission system by focusing on the transmitter and the receiver used in such systems To accomplish this goal, we will discuss the operating characteristics of lightemitting diodes (LEDs) and lasers Once this is accomplished, we will consider the operational characteristics of different types of optical receivers, which are commonly referred to as detectors or optical detectors Because you cannot simply shine light into a fiber or place a detector at the end of a fiber the roles of a coupler and its connector are extremely important , Thus, we will also cover the use of these components in this chapter However before beginning our coverage of light sources and detectors, let s make , sure that we understand how they are employed Thus, let s begin this chapter by focusing on the components of an optical transmission system
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