FTS510 Series Smart PON OTDR Tester is entirely new pad product released by OPWILL. It has rapid start technology and supports automatic and real-time test mode, which can guarantee engineers to examine and detect optical fibres or cables in core, metro, and access network with high flexibility, efficiency, and convenience.Meanwhile, its operation system interface has high similarity with Android GUI, significantly simplifies the test procedure.


The PRO-5350 OTDR Series is the new generation of intelligent OTDRs for use in fiber communications systems. With an increase in optical network construction in cities and suburbs, there is often a need for higher power OTDRs. The PRO-5350 Series is specifically designed for such applications. The PRO-5350 Series is manufactured within precise engineering and design tolerances, keeping usability, durability and expandability in mind. Subject to stringent mechanical, electronic and optical testing, quality can be seen and felt from the ruggedized body and high resolution display, to the soft-touch keypad and userfriendly USB interface.


FH-3000 OTDR+VFL Optical Time-Domain Reflectometer FEATURES Handheld and portable High price/performance ratio 5-inch HD touch screen Simple interface and one-button testing Continuous standalone operation Supports multi-language display and input APPLICATIONS FTTX PON network testing CATV network testing Access network testing LAN network testing Metro network testing Lab and factory testing Real-time fiber troubleshooting


MaxTester 700 Series: Cost-Optimized, Yet Comprehensive OTDRs The MaxTester 700 series comprises small, lightweight, dedicated portable OTDRs offering a large screen for easy manipulations. These affordable units integrate EXFO’s renowned OTDR performance and value-added features in a basic solution that reflects today’s needs. The MaxTester series comes in two models: the MaxTester 710 (last mile and access point-to-point OTDR) and the MaxTester 730 (metro and FTTH PON/MDU OTDR). The MaxTester 710 is perfect for point-to-point last mile testing of passive optical networks (PON) within FTTx architectures. It is ideal for testing short fibers, e.g., inside a CO environment or in a fiber-to-the-antenna (FTTA) network.