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    Testing Method for Optical & Geometrical Properties of Fiber

    Testing Parameters Parameter & Test Method Description EIA/TIA-455
    FOTP
    IEC-607931 ITU-T
    Fiber Geometry Fiber geometry is important where two fibers cores are to be joined together. Fiber geometry is measured to identify fiber mismatches which occur when manufacturer fails to maintain the optical and structural tolerances during the fiber fabrication process. Fiber mismatches will lead to fiber attenuation and intrinsic coupling loss. EIA/TIA 455-176 introduces method to measure all key parameters of fi ber cross sectional geometry except core diameter. IEC-60793-1-20 describes four methods for measuring fi ber geometry (namely refractive near fi eld, transverse interference, near-fi eld light distribution and mechanical diameter). The following parameters are measured: cladding diameter, cladding non circularity, core diameter, core non circularity and core cladding concentricity error and theoretical numerical aperture. IEC 60793-1-21 describes four methods for coating geometry of the fiber. The following parameters are measured: coating diameter, coating non-circularity and coating cladding concentricity error. 176 20,21 SM: G.650 Method 5.2.1MM: G.651,Sec.1, Method B.3
    Spectral Attenuation The reduction in signal strength is measured as attenuation. Attenuation is function of wavelength. TIA 455-78 describes a method for measuring the spectral attenuation of single mode fi ber. TIA 455-46 describes a method for measuring the spectral attenuation of long length grade index multimode fiber. IEC 60793-1-40 describes four methods for measuring attenuation: (a) cut-back, (b) insertion loss, (c) backscattering (d) modelling spectral attenuation. SM Fibers:78MM Fibers:46 40 SM: G.650 Method 5.4.1MM: G.651,Sec.2,1, Method B.2
    Attenuation Uniformity (Point discontinuity) The backscattering method adopted in IEC 60793-1-40 covers the location, loss and characterization of point discontinuity. This test is to monitor the change in optical transmittance of the fi ber and cables arising from optical discontinuity. 78 40 SM: G.650 Method 5.4.2MM: G.651,Sec.2, Method B.4
    Numerical Aperture (MMF) The numerical aperture (NA) is a measurement of the ability of an optical fi ber to capture light. TIA 455-177 is to determine the NA of near parabolic profile, graded index, glass core and glass clad optic fibers. NA is determined either from the fiber far field radiation pattern (Method A) or the fiber refractive index profile (Method B). IEC 60793-1-43 establishes requirement for measuring A1 graded index multimode fi ber and its light gathering ability.The test is used to predict launching effi ciency, joint loss at splices, and micro/macrobending performance 177 43 G.651,Sec.1, Method B.4
    Cutoff Wavelength (SMF) The wavelength at which a mode stops to propagate is called cutoff wavelength for that mode; However, an optical fiber is always able to propagate at least one mode, the fundamental mode. The fundamental mode can never be cut off. The cufoff wavelength of a single mode fiber is the wavelength above which the fiber propagates only the fundamental mode Measuring the cutoff length involves comparing the transmitted Power from the test fi ber with that of a reference fiber at different wavelength. TIA 455-80 & IEC 60793-1-44 provides methods for measuring the cut-off wavelength of single-mode optical fi bers. The test method applies to sample fi ber in either an uncabled condition or in a cable or as a jumper cable. 80 44 G.650, Methods5.3.1, 5.3.3
    Mode Field Diameter (SMF) Not all light travels through the core of the fi ber, but is distributed through both the core and the cladding. The "mode fi eld" is the distribution of light through the core and cladding of a particular fiber. Mode-Field Diameter (MFD) defi nes the size of the power distribution. TIA/EIA 455-191establishes unifrom requirement for measuring MFD of fiber. Four methods are described in IEC 60793-1-45:a) direct far fi eld scan b) variable aperture in the far fi eld c) near fi eld scan d) bidirectional backscattering using an ODTR.Mode field diameter is a key parameter because the radial extent of the mode can be used to predict losses at joints and microbends. In addition, if its spectral variation is known, it can be used to measure cut off wavelength. Other parameters which can be predicted using MFD data include waveguide dispersion and refractive index profi le. 191 45 G.650, Methods5.1.2
    Bandwidth (MMF) Bandwidth is generally the amount of data that can be carried from one point to another in a given time period.Bandwidth is measured by launching light into fiber from LED. With this type of light, all modes are filled and which is called overfilled launch. TIA/EIA 455-204 describes two methods for determining the transmission capacity for multimode fiber. IE 60793-1-41 describes two methods for measuring the modal bandwidth of multimode fiber. a) optical time domain measurement (pulse distortion) b) frequency domain measurement. Each method can be performed using one of the two launches: an overfi lled launch (OFL) condition or a restricted mode launch (RML) condition. 204 41 G.651, Sec.3 Methods B2 G650 Method 5.5.1
    Chromatic Dispersion (SMF) Chromatic dispersion occurs because different colors of light travels through the fi ber at different speed. Some colors arrive at the fiber end before the others. This differential delay difference is called group delay which leads to pulse broadening. Chromatic dispersion is obtained by measuring this fi ber group delay in the time domain. TIA455-175 use the differential phase shift method to determine the dispersion coeffi cient at a particular wavelength from the differential group delay between two closely spaced wavelength.IEC 60793-1 describes four methods for measuring chromatic dispersion: (a) phase shift, (b) spectral group delay in the time domain, (c) differential phase shift, and (d) interferometry. 175 42 G.650, Method 5.5.1
    Polarization Mode (PMD) Polarization mode dispersion (PMD) is the average differential group delay (DGD) which is the time delay between two principle polarization modes of the transmission link at the receiver. PMD occurs when different planes of light inside a fi ber travel at slightly different speeds, making it impossible to transmit data reliably at high speeds. PMD is the biggest challenge for high speed optic system. IEC 60793-1 describes three methods of measuring PMD of single mode fi ber. TIA455-124 describes methods for measuring average PMD of SMF and cable assemblies over the measurement wavelength range of the selected source from 1210 nm and/or 1550 nm region. 124 48 G.650 Method 5.7.3
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