Power Testing. This end-to-end loss measurement will be conducted for each Leased Fiber in the span and from both directions using an industry-accepted laser source and power meter. The bi-directional average will be used to determine the end-to-end loss of the span at each appropriate wavelength. This test will be conducted at both 1310 nm and 1550 nm for Standard Single Mode Fiber; Dispersion Shifted Fiber (True WaveTM, LEAFTM, etc.) will be tested at 1550 nm only. In the event that a span consists of both Standard Single Mode and Dispersion Shifted fiber types, only 1550 nm testing will be conducted. This power testing will ensure fiber continuity and the absence of crossed fibers in the span. Power testing will only be conducted where the Leased Fiber is terminated by MFN in fiber distribution panels at both ends of the span.
Appears in 3 contracts
Samples: Fiber Optic Private Network Agreement (Storagenetworks Inc), Fiber Optic Private Network Agreement (Storagenetworks Inc), Fiber Lease Agreement (Wiltel Communications Group Inc)
Power Testing. This this end-to-end loss measurement will be conducted for each Leased Fiber in the span and from both directions using an industry-accepted laser source and power meter. The bib-directional average will be used to determine the end-to-end loss of the span at each appropriate wavelength. This test will be conducted at both 1310 nm and 1550 150 nm for Standard Single Mode Fiber; Dispersion Shifted Fiber (True WaveTMWave (TM), LEAFTMLEAF(TM), etc.) will be tested at 1550 nm only. In the event that a span consists of both Standard Single Mode and Dispersion Shifted fiber types, only 1550 15450 nm testing will be conducted. This power testing will ensure fiber continuity and the absence of crossed fibers in the span. Power testing will only be conducted where the Leased Fiber is terminated by MFN in fiber distribution panels at both ends of the span.
Appears in 1 contract
Samples: Fiber Optic Network Leased Fiber Agreement (Cogent Communications Group Inc)
Power Testing. This end-to-end loss measurement will be conducted for each Leased Fiber in the span and from both directions using an industry-accepted laser source and power meter. The bi-directional average will be used to determine the end-to-end loss css of the span at each appropriate wavelengthwave length. This test will be conducted at both both, 1310 nm and 1550 155 nm for Standard Single Mode Fiber; : Dispersion Shifted Fiber (True WaveTMWave(TM), LEAFTMLEAF(TM), etc.) will be tested at 1550 nm only. In the event that a span scan consists of both Standard Single Mode and Dispersion Shifted fiber typestype, only 1550 nm testing will be conducted. This power testing will ensure fiber continuity and the absence of crossed fibers in the span. Power testing will only be conducted where the Leased Fiber is terminated by MFN in fiber distribution panels at both ends of the span.
Appears in 1 contract
Samples: Private Network Agreement (Fibernet Telecom Group Inc\)
Power Testing. This end-to-end loss measurement will be conducted for each Leased Fiber in the span and from both directions using an industry-accepted laser source and power meter. The bi-directional average will be used to determine the end-to-end loss of the span at each appropriate wavelength. This test will be conducted at both 1310 nm and 1550 nm for Standard Single Mode Fiber; Dispersion Shifted Fiber (True WaveTMWave(TM), LEAFTMLEAF(TM), etc.) will be tested at 1550 nm only. In the event that a span consists of both Standard Single Mode and Dispersion Shifted fiber types, only 1550 nm testing will be conducted. This power testing will ensure fiber continuity and the absence of crossed fibers in the span. Power testing will only be conducted where the Leased Fiber is terminated by MFN in fiber distribution panels at both ends of the span.
Appears in 1 contract
Samples: Fiber Optic Private Network Agreement (Atg Group Inc)
