EXFO OTDR iOLM MaxTester Series | PT. Visi Indotama Perkasa | Exfo Indonesia | EXFO MAX-715D | MAX-720D | MAX-730D | MAX-735D | MAX-740C
MaxTester 715D Last-Mile OTDR
Optimized for point-to-point (P2P) testing and troubleshooting of FTTx architectures. Ideal for testing short fibers (e.g., inside CO environments or at fiber-to-the-antenna [FTTA]/ distributed antenna system [DAS] network installations).
MaxTester 720D Access OTDR
Optimized for singlemode and multimode field testing for data centers, private/enterprise networks, FTTA and fronthaul deployments. Also ideal for FTTH characterization to test through optical splitters up to 1x32.
MaxTester 730D PON/METRO OTDR
Optimized to test through optical splitters up to 1x128, ensuring complete end-to-end FTTH characterization. 1625 or 1650 nm, out-of-band, live testing port for efficient troubleshooting of active networks without affecting other signals. High dynamic range
Swap-Out connector
The MaxTester 700D OTDR Series comes with a Swap-Out connector which can easily be changed, as and when needed, without having to send the test unit to a service center. This ensures optimal performance over time without undue maintenance costs and downtime. The OTDR's optical connector health can be checked with an onboard diagnostic tool to replace the connector only when necessary.
Did you know?
Was your OTDR connector damaged when connecting a UPC cable to the APC port on your device? This no longer needs to cause downtime by sending the device back for repair. Thanks to EXFO’s Swap-Out connectors, you can now check connector health instantly and replace your connector within seconds if needed–directly from the field!
EXFO developed a better way to test fiber optics
iOLM is an OTDR-based application designed to simplify OTDR testing by eliminating the need to configure parameters and/or analyze and interpret multiple complex OTDR traces. Its advanced algorithms dynamically define the testing parameters as well as the number of acquisitions that best fit the network under test. By correlating multipulse widths on multiple wavelengths, iOLM locates and identifies faults with maximum resolution—all at the push of a single button.