Noyes® Test & Inspection:
OTDRs and Fault Locators |
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C850 QUAD OTDR with QUAD OLS and OPM
The C850 is both a QUAD Certification Tester and full-featured QUAD OTDR in a compact case with a large transflective touch screen display suitable for both indoor and outdoor operation. The C850 offers built-in auto test functionality when used with another C850 or the C840 QUAD Certification Tester.
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M700 Series OTDRs
The M700 is a compact, full-featured, single-mode OTDR that includes an integrated Visual Fault Locator (VFL), an Optical Power Meter (OPM) displaying up to three wavelengths simultaneously, and a large transflective touch screen display suitable for both indoor and outdoor operation.
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M650 QUAD OTDR
Available as M700 QUAD OTDR model
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M200 Series Handheld OTDRs
The M200 offers unmatched OTDR capabilities in a handheld package weighing less than 1 kg (2 lb). Multimode, Single-mode, and ‘Quad’ wavelength models are offered. With short dead zone and intermediate range specifications, the M200 is ideal for Tier 2 testing of premises (building and campus) networks or certification and troubleshooting of FTTX PON networks. And its bright, transflective display makes it suitable for both indoor and outdoor operation.
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OFL 280 Handheld FTTx OTDR
The OFL 280 is a single-mode OTDR offered in two FTTx-optimized models. The ‘installation and repair’ model can operate at three wavelengths (1310/1550/1625 nm) on dark fibers but automatically switches to a filtered, 1625 nm only mode if a live fiber is detected. A conventional three-wavelength (1310/1490/1550 nm) ‘construction’ model is also available to certify or fault-locate dark fibers in FTTx or other single-mode fiber optic networks.
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OFL 250 Handheld Single-Mode OTDR
The OFL 250 is a Single-mode OTDR with an integrated Optical Power Meter (OPM), Laser Source (OLS), and Visual Fault Locator (VFL) in a handheld package weighing only 0.8 kg (1.7 lb). With short dead zone and mid-range dynamic range performance, the OFL250 is ideal for testing optical fibers in service provider metro area and FTTx networks.
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Fiber Rings
OTDRs require launch and receive test cables to measure the end-to-end loss of optical fiber links. A launch cable, which connects the OTDR to the link under test, reveals the insertion loss and reflectance of the near-end connection. A receive cable, which is connected to the far-end of the link, reveals the insertion loss and reflectance of the far-end connection.
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