Established in 2000, Takfly Communication Co., Ltd.is a National High-tech Enterprise integrating R&D, sales and production.As a leading provider of optical connectivity equipment, Takfly has more than 24 years of ODM/OBM/OEM manufacturer experience, and its business has expanded to more than 128 countries and regions.
Takfly leads the development of the optical communication industry, provides global communication operators with the most advanced technology, integrated logistics solutions and comprehensive after-sales services, and competitive advanced data center solutions, and ultimately achieves sustainable growth and creates for the industry and society value!
The demand for data transmission in data centers has grown exponentially so traditional fiber optic patch cords cannot meet the connection requirements of current equipment. How to process and store more data in a limited space has become an urgent problem to be solved when building and expanding data centers.
The following is an introduction to the MPO patch cord in of MPO cable assemblies by Takfly.
MPO cable assemblies have MPO connector is one of the MT series connectors, with two guide holes and guide holes with a diameter of 0.7 mm on the left and right sides of the MT series ferrule, the guide pin (also called PIN) is a male connector, and the guide hole For the female connector. The PIN positioning function cooperates with the MPO adapter to achieve precise positioning and connection, achieving high stability. MPO cable and MPO fiber optic connectors can be processed to produce various specifications of MPO patch cords.
Due to continuous improvement and upgrading of optical fiber connectors, upgrade from MTRJ and E2000 to MPO. An MPO patch cord can support not only 8-core and 12-core, but breakout cable even 72-core or more fiber connections, which can meet the high-density transmission requirements of 40G and 100G fiber optic networks in data centers. The compact design of the MPO connector makes the MPO patch cord more cores and smaller size, which is necessary for use in high-density data centers
With the increasing demand for data center transmission, future large-capacity, high-speed data transmission will inevitably bring broad market prospects to the MPO cable assemblies.
A fiber optic patch cord means that both sides of cable are equipped with fiber connector connecting fiber optic cable realize the connection between device, device and patch cord.
Fiber connector type: if the end faces are the same, we can select LC-LC, SC-SC, etc. If connecting fiber optic cable we need to connect the device with different end face, LC-SC, LC-ST, LC-FC will more suitable for you.
Fiber optic pigtail, one side is fiber connector, the other side is pigtail. Used for the connecting fiber optic cable between optical terminal box and device. One side is fused with cable, the other side connects with media converter, optical transceiver module by LC, SC, FC, ST fiber connector. Realize the transmission of data.
The structure of the connecting fiber optic cable fiber connector can be divided into: FC, SC, ST, LC, MTRJ, MPO, MU, SMA, DIN, D4 fiber optic patch cord, pigtail and so on.
Singlemode or Multimode: the single mode patch cord adopts 9/125μm optical fiber, the multimode patch cord adopts 62.5/125μm optical fiber. The single mode fiber optic patch cord is mainly used for long distance transmission, multimode fiber optic patch cord is mainly used for short distance transmission, connecting fiber optic cable single mode and multimode have their own advantages.
Length: select the suitable distance to depend on distance between the device.
Material: Outer jacket materials have PVC, LSZH, TPU, etc. When deploying the cable in the building or inflammable environment, we need to use flame retardant cable; we should select flame retardant, low smoke, low toxic cable in public area; flame-retardant wiring equipment should be used between adjacent equipment and handover rooms.
To meet the increasing demand for fast and efficient connectivity and data transmissions, fiber optical manufacturers continue to invest and explore the creation of fiber cable types that are of high quality and at least more cost-effective than traditional copper cables.
What are the different fiber cable types?
This surge in demand has seen the emergence of different fiber cable types which can be classified into different categories depending on the following classifications.
Fiber optic cables are classified according to the propagation mode of light.
Single-Mode Fiber: Used for long-distance signal transmission.
Multi mode Fiber: Used for short-distance signal transmission
Other classifications can be according to the refractive index, i.e. fiber optic cables into step index fibers and graded index fibers, or on the basis of material, i.e. fiber optic cables into plastic or glass fibers.
The single mode fiber cable types are used for long-distance transmission
Multi mode fiber cables are used for short-distance transmissions since they have the light-gathering ability and simplify connections.
1. Single-mode fiber optic cable allows the transmission of a single light mode, while multimode fiber allows the transmission of multiple light modes.
2. The diameter of single-mode fiber is 9 µm, while the diameter of multimode fiber is 50 µm and 62.5 µm.
Takfly Communication Co., Ltd is a well-known fiber optical manufacturer and supplier in the fiber optic industry, which takes pride in producing and offering different types of fiber optic cables. With qualified R&D facility and first-class technology, we provide users with international-standard approved fiber optic cables, as well as customized optical fiber solutions for global customers, including cloud service providers, major equipment manufacturers, system integrators, project engineers, companies in the aviation and medical fields, optical researchers, etc. For any orders or inquiries about our high-quality, efficient, and cost-effective fiber optic cables, please feel free to contact us.
Takfly Communication Co., Ltd. is a leading fiber optic company and a renowned telecommunication network provider, prominent for its FTTx fiber access solutions to both domestic and international communication network construction users.
FTTX fiber, fiber to X, refers to different fiber delivery topologies and is classified regarding where the fiber optic line ends and the metallic network line begins.
FTTx fiber includes FTTH, fiber to the home, FTTB, fiber to the building, FTTC, fiber to the curb, FTTA, fiber to the base station among others.
With a qualified and state-of-the-art Research and development facility, TAKFLY makes FTTx fiber cables with capabilities such as:
Large transmission capacity: The FTTx fiber is known for its large transmission capacity
High-quality transmission: As compared to the traditional copper wire, FTTx fiber has quality transmission hence its preference as a transmission medium.
Long-distance transmission: Our cables are durable and can be used in applications requiring long-distance carrier fibers.
Reliability: The FTTx fiber employs an anti-electromagnet interference system hence it is more reliable since it reduces any data losses during transmission.
Designed by a highly skilled technical and engineering team, FTTx fiber provides a technical solution to different industries and sectors in telecommunication.The different categories under the FTTx fiber have different applications such as :
FTTB/FTTC (Fiber to the Building): FTTB is used for connecting directly to the building while FFTC connects to the homes or buildings and both can be applicable in highly populated residential or office areas.
FTTH (fiber to the Home): FTTH offers increased network performance and high speeds over long distances and can be applied to new apartments or villas in loose distribution.
Fiber to the terminal (FTTT). These Fiber optic cables are applied for connections directly to desktop equipment in an office.
For reliable, quality, and cost-effective FTTx fibers or FTTH fiber to the home fiber optical and other categories, contact us.
Optical communication distribution cabinets, also known as optical fiber cabinets, are mainly used for connection, resource management, and protection of optical fibers or optical fibers in optical fiber communication networks.
The optical fiber cabinet can realize the functions of fixing and grounding protection of optical cables, as well as fusion splicing, jumping, wiring scheduling, and redundant fiber coiling of various optical fibers. It is a necessary communication supporting equipment between transmission media and transmission equipment.
In this era of digitalization and technological innovation, the role of fiber optic racks cannot be underestimated. Essentially, there are different types of fiber optic racks, namely open frame racks, closed frame racks called fiber optic cabinets, and wall-mounted racks.
Fiber optic racks are designed to enclose, organize and manage fiber optic cables in the telecom industry in an enclosed compartment, thus protecting them from physical damage and environmental conditions such as sunlight, moisture, etc.
The Advantages of fiber cabinets
-Energy conservation: The fiber cabinets provide telecommunication providers with much-needed energy conservation since they reduce wastage and electrical noise during the transmission of signals.
-Reduces environmental impact: The enclosed fiber rack is a great plus when it comes to protecting fiber optics against environmental factors such as heat, water, or damage from accidents.
-Improved speed and efficiency: The fiber cabinets are designed with cooling and heating systems, and they ensure that there are balanced cooling and heating effects to provide efficiency and extended life of the fibers.
-Low maintenance costs: The fiber cabinets promote efficiency and foster reduced costs of maintaining the fiber optic cables.
Takfly Communication Co., Ltd. is a National High-tech Enterprise integrating R&D, sales, and production. As a leading provider of optical connectivity equipment, we provide the market with reliable and quality fiber racks for use in various industries such as main equipment manufacturers, and system integrators in residential, industrial, or manufacturing industries, etc.
Takfly has the expertise and advanced R&D facilities like data center and FTTH passive optical devices, fiber management systems coupled with vast experience of over 24 years of industrial experience and prides ourselves in the design and manufacture of high-quality fiber racks such as the Floor Type Fiber Optic Cross Connect Cabinet.
Polarization maintaining fiber: In the interferometric optical fiber sensor based on optical coherent detection, the use of polarization maintaining optical fiber can ensure that the linear polarization direction remains unchanged, improve the coherent signal-to-noise ratio, and thus achieve high-precision measurement of physical quantities.
Polarization maintaining fiber is used as a a kind of special optical fiber and high-tech product as well. A series of products concerning polarization maintaining optical fiber is widely used in various fields of national economy such as aerospace, aviation, navigation, industrial manufacturing technology and communication etc.
The PBS serves as splitting the incident light into beams, and the outgoing light will be in two directions. The vibration direction of one beam of light is perpendicular to the incident surface, and the vibration direction of the other beam is parallel to the incident surface. It is often used in optical paths with special requirements on polarization state. The principle of polarization beam splitting is that when the incident angle is the polarization angle, the reflective light is linearly polarized light whose vibration direction is perpendicular to the incident surface, and the reflective light generally accounts for a single digit percentage of the total light intensity. The linearly polarized light component of the vertical incident plane screened out by the method of multi-layer medium superposition finally makes the two parts of the final outgoing light be relatively pure vertically linearly polarized light and (the remaining) relatively pure parallel linearly polarized light respectively.
Non-polarization beam splitter (NPBS)
The non-polarization beam splitter serves separating the energy of the incident light, and the polarization state of the two outgoing beams has no specific change compared with the incident light, which just means the splitting of light. Its production is usually coated with a certain proportion of mercury on the separated surface, so that the ratio of the intensity of the refractive light to the incident light is just same as expected, such as the beam splitter in an interferometer.