Most FTTH systems are Triple Play systems offering voice, video, and data. To provide all three services over one fiber, signals are sent bi-directionally over a single fiber using 3 separate wavelengths of light. Three different protocols are in use today: BPON, EPON, and GPON.


Fusion Splicer---FS50
FS50F series fusion splicer is designed for the FTTX.
With the special clamp, it can splice the indoor cable with a low splicing loss and quick splicing.


OTDR---OT6000


OTDR is used to determine connection reflectance, fiber attenuation, and troubleshooting problems. With clear traces picture, customer would clearly locate the problem and link situation.


Using an OTDR to test every fiber in an outside plant (OSP) link is traditional, as the OTDR provides a picture of the losses in the fiber, locates loss events (connectors, splices, and bending losses from improper installation), aids troubleshooting, and provides a trace which can be stored for later troubleshooting and restoration.
Launch Cable Box-LCB20
Because of OTDR dead zone, it will have certain meter which is cannot be tested.
Using this launch cable, the test distance will be lengthening and delete the dead zone, and finally do the whole range test.
PON Power Meter---PPM6107 
It is used for the in-line test of tri-wavelength of passive optical networks. 
It tests the downstream data/video (1490nm/1550nm) signal from the OLT and upstream (burst-mode 1310nm) signal from ONU (ONT).
PPM6107 PON Power Meter visually indicates the situation of tested optical line via the indicator. With the added common power meter function and visual fault locator function, PPM6107 PON Power Meter also tests the common continuous optical power, locates short-distance fiber faults and connects multi-fibers.
PON Light Source--LS6206
It simultaneously provides tri-wavelength (1310/1490/1550nm) output for the passive optical network. It is used for testing the quality of splitter and ODN in the network. It can also provide 1625nm monitoring wavelength, that is quad-wavelength 1310/1490/1550/1625nm in one unit for the network.
Fiber Identifier---FI6600
Without interrupting the current signal transmission, it can in-line test the presence or absence of signal, signal direction, relative core power and modulation, and visually locates the no-signal fiber or large attenuation fiber.
Variable Attenuator---VOA6700
It continuously attenuates the optical signal and is convenient for the debugging and protection the safety of optical instrument. It has large attenuation range from 0~60dBm, and could provide quad-wavelength (1310/1490/1550/1625nm), which are the working and test wavelength of Passive Optical Network.
Visual Fault Locator—VFL650
It mainly locates the short-distance fiber faults, which are usually within the dead-zone of OTDR.
Microscope---MC750
Cleanliness of optical instrument and end-face of connector affects the stability, function of the whole optical network and is helpful for maintainer to locate faults. Now more and more operators and equipment system integrators highly regard the observation and cleanliness of end-face.MC750 microscope is to inspect whether the connector is clean and provide the visual proof for the operator. 
Cleaner---CL20


After the end-face inspection, we need to do the quick and effective cleaning.CL20 series cleaners feature cost effective and portable design.They are applicable for in-adapter cleaner and can used for both 1.25mm and 2.5mm connector cleaner.