Brand fiber core
MTP/MPO fiber optic patch cords are usually deployed in relatively small spaces, such as telecommunications distribution boxes, data center cabinets, etc. In these cases, the fiber core needs to have a curved arc. Inferior fiber core bending usually results in loss of signal and thus interruption of transmission. But brand optical fiber is different. For example, Corning optical fiber can greatly improve bending performance, minimize signal loss, and achieve faster and more efficient optical fiber wiring and installation. Therefore, the brand fiber core is very important for MTP/MPO fiber patch cords.
MTP/MPO connectors that meet industry standards
The MTP/MPO fiber optic connector can encapsulate 12, 24, or 72 fibers into one fiber to increase fiber density, so it is very popular in data centers with limited space. Industry-approved MTP/MPO connectors (such as US Conec or Senko connectors) can ensure the polarity of MTP/MPO cables and reduce insertion loss and return loss. The MTP/MPO connector conforming to industry standards is sturdy and durable, and can be recycled hundreds of times. The interface between the connector and the fiber jumper is round, so the fiber jumper can be carried from any direction of the MTP/MPO connector port Wiring simplifies the wiring structure. Therefore, it is also very important to buy high-quality MTP/MPO fiber optic jumpers and industry-approved MTP/MPO connectors.
Insertion loss
Insert Loss (Insert Loss) refers to the loss of the effective optical power of the link caused by the insertion of a connector or plug. It is one of the key factors affecting the performance of the optical fiber network. The smaller the insertion loss, the better the network performance. In general, the insertion loss of MTP/MPO multi-mode fiber patch cords should not exceed 0.6 dB, and the insertion loss of single-mode MTP/MPO fiber patch cords should not exceed 0.75 dB. For single-mode and multi-mode MTP/MPO fiber jumpers with low insertion loss (high quality), the insertion loss is usually required to not exceed 0.35 dB. When choosing MTP/MPO fiber patch cords, you can choose a supplier that provides an insertion loss test report.
Flame retardant grade
The shell of MTP/MPO fiber optic patch cords can be made of different materials, these materials have different fire resistance, can be divided into polyethylene (Polyethylene), polyvinyl chloride (PVC), low smoke zero halogen (LSZH), etc., Most of them have good flame retardant properties. If there are higher requirements for the installation environment, such as suspended ceilings and raised floors, it is best to choose MTP/MPO fiber jumpers with a higher flame retardant rating, so that it is not easy to burn or smoke in the event of a fire.
Fiber patch cord test
MTP/MPO fiber optic patch cord connector end face inspection: In order to ensure that the fiber optic connector has qualified or higher performance, the International Electrotechnical Commission (IEC) has developed the IEC 61300-3-35 standard to define whether the connector end face is qualified. The end face of the MTP/MPO jumper connector is divided into four areas: core area, cladding area, glue edge area and ferrule surface. It has requirements for scratches and blemishes connecting each area inside. Scratches represent permanent linear surface features. Defects include all detectable non-linear features on the optical fiber, including particles, other debris, pits, debris, edge chipping, etc. The cleaner the end face, the better the cable quality. Therefore, if you want to buy the best MTP/MPO cable, you should choose fiber optic patch cords that pass end-face inspection, such as fast (FS) MTP/MPO fiber optic patch cords.
3D inspection: Whether the fiber optic line can be successfully connected depends on the quality of the fiber, but the quality of the fiber jumper is determined by the size of the connector itself. If the size is not strictly controlled, the network cannot operate reliably for a long time. 3D detection defines the parameters of the MTP/MPO fiber optic patch cord connector, as shown in the following figure:
If the connector size of the MTP/MPO cable cannot meet the requirements, problems such as system connection failure will occur. Therefore, it is very important to choose MTP/MPO fiber optic patch cords that have passed the 3D interferometer test.
