Specs | SC,LC,FC,E2000 | ST,MU | MTRJ | |||
SM | MM | SM | MM | SM | MM | |
UPC/APC | UPC | UPC | UPC | UPC | UPC | |
Work Wavelength (nm) | 1310,1550 | 850,1300 | 1310, 1550 | 850,1300 | 1310, 1550 | 850,1300 |
Insertion Loss(dB) | ≤0.25/0.20 | ≤0.25 | ≤0.25 | ≤0.25 | ≤0.25 | ≤0.25 |
Return Loss(dB) | ≥55/65 | ≥35 | ≥50 | ≥35 | ≥50 | ≥35 |
Repeatability(dB) | ≤0.10 | |||||
interchangeability(dB) | ≤0.20 | |||||
Plug Testing(time) | ≥1000 | |||||
Tensile Strength(N) | ≥100 | |||||
Durability(dB) | ≤0.20 | |||||
Operation Temperature(°C) | -40~+75 | |||||
Storage Termperature(°C) | -40~+85 | |||||
Corning/YOFC Fiber
CCTC ceramic ferrule
* Test equipment: Each fiber jumper will be tested by the test equipment to ensure that the end face is free from pollution, so having good test equipment is the basic condition for testing fiber jumpers, and it is also an important condition.
* Strict quality control: test and record the data of the jumper, and screen the unqualified products.
* Perfect test process: The test process includes end-face test, 3D interferometer test, single-mode IL and RL test and multi-mode IL and RL test.
CE
CPR
ISO
ROHS
The main purpose of optical fiber jumper patch cord detection is to ensure the quality of the system connection, reduce the fault factors, and find the fault point of the optical fiber when a fault occurs. There are many detection methods, mainly divided into manual simple measurement and precision instrument measurement.Simple manual measurement: This method is generally used to quickly detect the connection and disconnection of fiber jumpers and to distinguish the fiber jumpers made during construction. It uses a simple light source to enter visible light from one end of the fiber jumper and observe which one emits light from the other end. Although this method is simple, it cannot quantitatively measure the attenuation of the fiber jumper and the break point of the fiber jumper.Precision instrument measurement: use optical power meter or optical time domain reflectometer (OTDR) to quantitatively measure fiber jumpers, which can measure the attenuation of fiber jumpers and the attenuation of connectors, and even the break points of fiber jumpers position. This measurement can be used to quantitatively analyze the causes of fiber network failures and evaluate fiber network products.
Specs | SC,LC,FC,E2000 | ST,MU | MTRJ | |||
SM | MM | SM | MM | SM | MM | |
UPC/APC | UPC | UPC | UPC | UPC | UPC | |
Work Wavelength (nm) | 1310,1550 | 850,1300 | 1310, 1550 | 850,1300 | 1310, 1550 | 850,1300 |
Insertion Loss(dB) | ≤0.25/0.20 | ≤0.25 | ≤0.25 | ≤0.25 | ≤0.25 | ≤0.25 |
Return Loss(dB) | ≥55/65 | ≥35 | ≥50 | ≥35 | ≥50 | ≥35 |
Repeatability(dB) | ≤0.10 | |||||
interchangeability(dB) | ≤0.20 | |||||
Plug Testing(time) | ≥1000 | |||||
Tensile Strength(N) | ≥100 | |||||
Durability(dB) | ≤0.20 | |||||
Operation Temperature(°C) | -40~+75 | |||||
Storage Termperature(°C) | -40~+85 | |||||
