China Fiber Optic Patch Cord Manufacturers, Suppliers, Factory - Customized Fiber Optic Patch Cord Price

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Rich Experience: Our company is a professional supplier of fiber optic products and WDM systematic solution. Was built by a team who has more than 10-year experiences in optical communication product R&D, fiber solution, component developing and manufacturing.

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Customer Service: The HTF team gathered a group of top professionals in the industry, and established a complete management system throughout the R & D-production-sales-service, which aim to provide professional, fast, customized product design and services to meet the needs of customers in all directions. HTF had design and customized many WDM solutions to many project.

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Diversified Product Categories: Currently our products are widely used in Telecommunication, CATV, FTTX, WANs, LAN, Gigabit&10 G Ethernet, SDH/SONET, Fiber Channel, Roadway safety, Data-video Transmission, Long-distance monitoring, Military and many other fields.

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Definition of Fiber Optic Patch Cord

A fiber optic patch cord is a fiber-optic cable capped at each end with connectors that allow it to be rapidly and conveniently connected to telecommunication equipment. This is known as interconnect-style cabling. It has two major application areas: Computer work station to outlet and fiber optic patch panels or optical cross connect distribution center. Fiber optic patch cord are for indoor applications only.

OM3 12 Fibers MTP Cable
HTF supplies fiber optic pigtails, with very competitive prices. We offer 3 primary fiber versions including the 9/125um single mode, 62.5/125 multimode and 50/125um OM3 10Gb types, these fiber
MPO Fiber Cable
● US Conec MTP® connector, Senko MPO Plus premium connector optional. ● Corning® Clearcurve® multimode fiber, SMF-28® Ultra Optical Fiber. ● OS2, OM3, OM4 fiber grades (OM1 and OM2 available). ●
MPO Fiber Cable
MPO trunk cable, a cost-effective alternative to time-consuming field termination, is designed for high-density fiber patching in data centers which need space saving and reduce cable management
12 cores Trunk Cable Type B LSZH Yellow MPO Fiber Patch Cord
MPO trunk cable, a cost-effective alternative to time-consuming field termination, is designed for high-density fiber patching in data centers which need space saving and reduce cable management
SC LC OS2 Singlemode Patchcord
This SM fiber has yellow color jacket with 3.0mm diameter. OS2 cables have 0.36 dB/km attenuation at 1550 nm - 0.22 dB/km at 1310 nm
SC LC MMF Duplex Patchcord
A SC-LC Patch cord is a single, short, usually tight-buffered, optical fiber that has an optical connector pre-installed on one end and a length of exposed fiber at the other end.
Patch Cord SC Duplex LSZH MMF Optic Cable
SC-SC multimode optical fiber jumper, reliable performance, good versatility, tensile corrosion resistance, convenient construction.
Patch Cord Optical Fiber jumper LC Dx LSZH Multimode cable
LC / UPC connector loose parts plastic part of new raw material injection molding, metal part of pure copper.High temperature and environmental protection, durable, no deformation, no fracture, not
SC SX 2.0mm SMF Cable
This 9/125 OS2 single mode fiber optic cable is ideal for connecting 1G/10G/40G/100G Ethernet connections. It can transport data for up to 10km at 1310nm, or up to 40km at 1550nm.
Patch Cord High Quality Bend Insensitive Cable
1m (3ft) SC UPC to SC UPC Duplex OS2 Single Mode PVC (LSZH) 3.0mm Fiber Optic Patch Cable
Patch Cord Optical Fiber jumper LC 2.0mm LSZH Jacket Cable
The 9/125μm single mode fiber optic cable is suitable for enterprise network, telecom room, server farms, cloud storage networks, and any place fiber jumper cables are needed.
Patch Cord Fiber jumper MMF OM3 Optical cable
HTF offers Multimode Fiber Optical Patch Cord with OM1: 62.5/125um, OM2: 50/125um, OM3: 50/125um, OM4: 50/125um.

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Benefits of Fiber Optic Patch Cord

Fiber optic patch cord are rapidly becoming the preferred method for transmitting data across vast distances. The technology behind fiber optics has been around for decades, but recent advancements have made it more affordable and accessible than ever before. In this article, we will explore some of the many advantages that fiber optic patch cord have over traditional copper cables.

1.Wide Bandwidth
The bandwidth of a cable refers to the amount of data that can be transmitted over it. Higher-frequency carriers allow for greater bandwidths, and fiber optic cables use light to carry information instead of electrical signals, making them capable of transmitting much larger amounts of data over greater distances.

2.Low Losses
Optical fibers are incredibly efficient at transmitting light without losing any energy. When transmitting light with a wavelength of 1.31um, the loss is typically less than 0.35dB per kilometer. For light with a wavelength of 1.55um, the loss is even lower, often less than 0.2dB per kilometer. This results in less signal degradation and better transmission quality over long distances.

3.Lightweight
Fiber optic cables are made from glass fibers, which are much lighter than their copper counterparts. This makes them easier to install and handle, particularly in communication rooms where multiple cables may need to be routed through tight spaces.

4.Strong Resistance to Interference
Fiber optic cables are composed of quartz, which does not conduct electricity. This means that they are immune to electromagnetic interference (EMI) and radio frequency interference (RFI). As a result, fiber optic cables can transmit data accurately even when subjected to high levels of interference.

5.High Fidelity
Because fiber optic cables do not require amplification as often as copper cables, they are less susceptible to non-linear distortion. This means that they can transmit signals over longer distances without losing clarity or quality. This makes them ideal for broadcasting and other applications where signal quality is a priority.

6.Reliability
Fiber optic systems require fewer components than traditional copper cables, making them less complex and more reliable. Optical fibers are also incredibly durable and have an operational life of between 500,000 and 750,000 hours without failure.

7.Cost-Effective
As the technology behind fiber optics continues to improve, the cost of producing fiber optic cables continues to decrease. This makes fiber optic cables a cost-effective alternative to copper cables for transmitting data over long distances.

The Working Principle of a Fiber Optic Patch Cord

A fiber optic patch cord is a crucial component in fiber optic networks as it enables the transmission of light signals between devices. The patch cord consists of a fiber optic cable with connectors on both ends, allowing it to be easily connected and disconnected from various devices.

The working principle of a fiber optic patch cord is based on the transmission of light signals through fiber strands. The cable itself is made up of a core, which carries the light signals, surrounded by a cladding layer that reflects the light back into the core. This design ensures that the light signals remain confined within the fiber, minimizing signal loss and maintaining high transmission quality.

When a light signal is transmitted through the fiber optic patch cord, it undergoes total internal reflection within the core. This means that the light signal bounces off the cladding layer and continues to travel down the fiber strand without significant loss or dispersion. The light signals can travel over long distances without degradation, making fiber optic patch cords ideal for high-speed and long-distance communication.

The fiber optic patch cord connectors play a crucial role in the transmission process. They are designed to align the fiber cores precisely, ensuring efficient light signal transfer between devices. The connectors also provide protection and stability to the fiber strands, preventing damage and maintaining signal integrity.

From the latest point of view, advancements in fiber optic technology have led to the development of more advanced patch cord designs. For instance, there are now patch cords with bend-insensitive fibers, which are more resistant to signal loss caused by tight bends or twists in the cable. Additionally, there are patch cords with improved connectors that offer higher insertion and return loss performance, further enhancing signal transmission quality.

A fiber optic patch cord works by transmitting light signals through fiber strands. The light signals undergo total internal reflection, ensuring minimal signal loss and maintaining high transmission quality. The connectors on the patch cord play a crucial role in aligning the fiber cores and providing protection to the fiber strands. Advancements in fiber optic technology have led to the development of more advanced patch cord designs, offering improved signal transmission performance.

Proper Maintenance and Handling of Fiber Optic Patch Cord

To ensure optimal performance and longevity of fiber optic patch cord, follow these maintenance and handling practices:
1.Handle with care: Avoid bending or twisting the cables beyond their specified bend radius. Protect the connectors from dust, dirt, and physical damage.
2.Clean connectors: Regularly clean the connectors to remove dust and contaminants. Use lint-free wipes and isopropyl alcohol for cleaning.
3.Avoid excessive tension: Do not put excessive tension on the cables during installation or maintenance.
4.Avoid extreme temperatures: Keep the cables away from extreme temperatures, as they can cause damage to the fiber and connectors.
5.Regular inspections: Inspect the cables for any signs of damage or wear and replace them if necessary.

Common Types of Fiber Optic Patch Cord

Fiber optic patch cord can be divided into different types based on fiber cable mode, cable structure, connector types, connector polishing types and cable sizes.

Single mode fiber patch cables

Single mode fiber optic patch cord use 9/125 micron bulk single mode fiber cable and single mode fiber optic connectors at both ends. Single mode fiber optic cable jacket color is usually yellow. Here is the explanation of what is single mode and single mode fiber.

Multimode fiber patch cables

Multimode fiber optic patch cord use 62.5/125 micron or 50/125 micron bulk multimode fiber cable and terminated with multimode fiber optic connectors at both ends. Multimode fiber optic cable jacket color is usually orange. Here is the explanation of what is multimode and multimode fiber.

10gig multimode fiber optic patch cord

10Gig multimode fibers are specially designed 50/125 micron fiber optimized for 850nm VCSEL laser based 10Gig Ethernet. They are backward compatible with existing network equipment and provide close to three times the bandwidth of traditional 62.5/125 multimode fibers. 10 Gigabit is rated for distances up to 300 meters using 850nm Vertical Cavity Surface Emitting Lasers (VCSEL). 10Gig fiber optic cable jacket is usually aqua.

Components of Fiber Optic Patch Cord

A fiber optic patch cord is an essential component in fiber optic communication systems. It is used to connect optical devices such as transceivers, switches, and routers to transmit data through optical fibers.

A fiber optic patch cord consists of two connectors on each end and a fiber optic cable in between. The connectors are designed to align and join the fibers in a secure manner. Different connector types are available, such as LC, SC, ST, and MPO, each offering unique features and advantages. The choice of connector type depends on the specific application and the equipment being used.

The connectors have precision-molded ferrules that hold the fiber ends in place. The ferrules ensure that the fibers are properly aligned, minimizing signal loss and maximizing transmission efficiency. The connectors are also designed to provide a secure physical connection, preventing any accidental disconnections.

Inside the fiber optic patch cord, there are one or more glass or plastic fibers that carry the optical signals. These fibers are extremely thin, typically around the diameter of a human hair. The core of the fiber carries the light signals, while the cladding surrounding the core helps to confine the light within the core and reduce signal loss.

When a fiber optic patch cord is connected between two devices, the light signals generated by one device are transmitted through the fiber optic cable to the receiving device. The connectors ensure that the fibers are properly aligned, allowing the light signals to pass from one fiber to another without significant loss or distortion.

In recent years, advancements in fiber optic technology have led to the development of higher bandwidth and faster transmission speeds. Additionally, new connector types and designs have emerged to meet the demands of evolving communication systems. These advancements have further improved the performance and reliability of fiber optic patch cords, making them a crucial component in modern data transmission networks.

How Does a Fiber Optic Patch Cord Work?

A fiber optic patch cord is a crucial component in fiber optic networks that enables the transmission of data through optical fibers. It is a cable assembly consisting of two connectors on each end and a fiber optic cable in between. These cords are designed to connect various devices such as switches, routers, and servers, ensuring high-speed and reliable data transmission.

The core principle lies in the transmission of data through light signals. Inside the fiber optic cable, there is a core made of glass or plastic that carries the light signals. Surrounding the core is a cladding layer that reflects the light signals back into the core, preventing signal loss. The entire cable is protected by an outer jacket for durability.

When a data signal is sent, it is converted into light pulses using a transmitter. These light pulses travel through the core of the fiber optic cable, bouncing off the cladding layer until they reach the other end of the patch cord. At the receiving end, a receiver converts the light pulses back into data signals.

The benefits of fiber optic patch cords are numerous. Firstly, they provide high-speed data transmission, capable of carrying large amounts of data at incredible speeds. This is crucial in today's digital world where the demand for bandwidth is constantly increasing. Fiber optic patch cords also offer reliable data transmission, as they are immune to electromagnetic interference and signal degradation over long distances.

Furthermore, fiber optic patch cords have a smaller form factor compared to traditional copper cables, making them easier to install and manage. They are also more secure, as the light signals cannot be easily intercepted or tapped into, providing enhanced data security.

In the latest point of view, fiber optic patch cords are becoming even more important as technology advances. With the rise of cloud computing, streaming services, and the Internet of Things (IoT), the need for faster and more reliable data transmission is paramount. Fiber optic patch cords play a crucial role in meeting these demands, ensuring seamless connectivity and efficient data transfer.

Fiber optic patch cords enable high-speed and reliable data transmission through the use of light signals. They offer numerous benefits such as fast data transfer, immunity to interference, and enhanced security. As technology continues to evolve, fiber optic patch cords will remain a critical component in supporting the growing demand for high-speed and reliable connectivity.

How to Choose the Best Fiber Optic Patch Cord for Your Network?

Patch Cord SC Duplex LSZH MMF Optic Cable

The main types of fiber optic patch cord are OM1, OM2, OM3, OM4 and OS2 single mode. There are other types as SC, ST, FC, LC, MTRJ and E2000, etc. . When the actual application has no fixed choice, you need to choose according to your own actual use situation.

Step 1: Choose the correct connector type (LC / SC / ST / FC / MPO / MTP)
Different connectors are used to plug in different devices. If the ports of the two devices are the same, we can use LC-LC / SC-SC / MPO-MPO jumpers. If you want to connect devices with different port types, LC-SC / LC-ST / LC-FC jumpers should be suitable for you.

Step 2: Choose between single-mode and multi-mode fiber optic cable type
Single-mode fiber patch cords use 9/125um fiber, and multi-mode fiber patch cords use 50/125um or 62.5/125um fiber. Single-mode fiber optic patch cords are mainly used for long-distance data transmission. Multimode fiber optic patch cords are mainly used for short-distance transmission. The sheath of general single-mode fiber optic patch cords is yellow, while the sheath of multi-mode fiber optic patch cords is orange or blue.

Step 3: Choose between simplex and duplex fiber optic cable type
Simplex means that this fiber optic patch cord has only one fiber optic cable and only one fiber optic connector at each end, which is used for bidirectional BIDI optical modules. Duplex can be seen as two fiber optic patch cords side by side, used for ordinary optical modules.

Step 4: Choose the correct jumper length (1m / 5m / 10m / 20m / 30m / 50m)
The length of the fiber optic patch cord is different, usually 0.5m to 100m. You should select the appropriate cable length according to the distance between the devices to be connected.

Step 5: Choose the correct connector polishing type (UPC / APC)
Since the loss of the APC connector is lower than the loss of the UPC connector, the optical performance of the APC connector is generally better than that of the UPC connector. In the current market, APC connectors are widely used in applications that are more sensitive to return loss such as FTTx, Passive Optical Network (PON) and Wavelength Division Multiplexing (WDM). However, APC connectors are usually more expensive than UPC connectors, so you should consider whether you need APC connectors according to your actual situation. For those applications that require high-precision optical fiber signals, APC should be the first consideration, but other less sensitive systems will also perform well using UPC. Generally, the color of the fiber optic patch cord using APC connector is green, and the color of using UPC connector is blue.

Step 6: Choose the right fiber optic patch cord sheath (PVC / LSZH / OFNP / armored)
Generally, there are three types of jumper sheaths: PVC, LSZH, OFNP. The jumper sheath made of PVC material is common to everyone, with average fire resistance and the lowest price; LSZH jumper sheath is made of low-smoke and halogen-free materials, which is environmentally friendly and flame-retardant, but the price is more expensive; OFNP jumper The wire sheath refers to the American Fire Protection Commission standard, which can be flame retardant. This material will automatically extinguish when it leaves the fire source. It is the most expensive and suitable for large data centers. You can choose according to your own situation.
In addition to the above three jumpers, there is another armored fiber optic jumper. Its steel sleeve structure can protect the fragile optical fiber very well, and the bending resistance is relatively strong. Such jumpers can withstand higher pressure, so they are suitable for routing along the floor and other areas that may be trampled on. This kind of fiber optic patch cord also has the advantages of strong abrasion resistance, anti-pull, anti-rat bite and so on.

Our Factory

HTF has strong manufacture capabilities in whole series of optical transceivers with commercial grade and industrial grade, WDM transmission System design, The HTF team gathered a group of top professionals in the industry, and established a complete management system throughout the R & D-production-sales-service, which aim to provide professional, fast, customized product design and services to meet the needs of customers in all directions. HTF had design and customized many WDM solutions to many project.

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HTF supplies a broad range of communication solutions products including wavelength division multiplexer (WDM/CWDM/DWDM/OADM), WDM systematic solution, Fiber Optic Transceivers (SFP, SFP+, XFP, 10G QSFP+, 40G QSFP+ and 100G CFP2), OEO Converter Repeater, Ethernet Media Converter, Fiber Optical Patch cord and Fiber Optical assembly.

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Certification

Reliable quality, Strictly abide by ISO9001:2008; Products passed ISO, FCC and CE certification; All products will pass rigorous test and inspection before shipping.

Ultimate FAQ Guide to Fiber Optic Patch Cord

Q: What is a fiber patch cord?

A: Fiber patch cables, also called fiber-optic patch cords, are cables typically containing one or two optical fibers, which are equipped with standardized fiber connectors on both ends. They are generally sold in large quantities, rather than custom-made, although quite special models are also available. Typically, the used fiber cables have some additional mechanical protection for the fiber(s), e.g. some aramid yarns surrounded by a polymer jacket.

Q: What is the difference between fiber patch cord and pigtail cable?

A: If you have doubts on the differences between fiber pigtails and fiber patch cords this article will help you to know their main differences. The main difference between these two cables is that pigtails have one side terminated with a connector and other side ends with bare fibers, while patch cords have two connectors terminated on both ends. Let's see in more detail how these assemblies are used and how are they distinguished.

Q: Fiber Optic Patch Cord- How to Test Connectors?

A: Using a light source, pigtails and patch cords can quickly be tested for continuity, in other words light goes in and comes out at the other end. If it doesn't, a break or blockage is preventing the light from propagating, so usually patch cords are ordered as unjacketed patch cords, tested with a light source then cut in two pieces in order to make two pigtails.

Q: What are the classification of optical fiber patch cords?

A: According to the connector structure, it can be divided into FC patch cord, SC patch cord, St patch cord, LC patch cord, MTRJ patch cord, MPO patch cord, Mu patch cord, SMA patch cord, FDDI patch cord, E2000 patch cord, din4 patch cord, D4 patch cord and so on. Common fiber optic patch cords can also be divided into FC-FC, FC-SC, FC-LC, FC-ST, SC-SC, SC-ST, etc.

Q: What is the difference between fiber cable and fiber patch cord?

A: No, a fiber patch cord is not the same as a fiber optic cable. A fiber patch cord is a shorter length of fiber optic cable that is typically used to connect devices in a local area network (LAN) or data center. It usually has connectors on both ends, allowing for easy plug-and-play installation. In contrast, a fiber optic cable refers to the entire length of optical fibers used for transmitting data over long distances. It can be much longer and may include multiple fibers bundled together within a protective outer jacket. Fiber optic cables are commonly used for long-haul telecommunications, internet backbone connections, and other high-capacity data transmission applications.

Q: What color is fiber optic patch cord?

A: Color codes make it easy to identify these patchcords which all have SC connectors: aqua cable and connector indicate 50/125 laser optimized fiber on the cable to the left. In the center, orange cable means multimode fiber and the beige connector indicates 62.5/125 fiber. On the right, the yellow patchcord indicates singlemode fiber and the blue connector means it is a regular PC polished connector, If it were an APC connector, it would be green.

Q: What is the difference between blue and green fiber patch cords?

A: Blue singlemode connectors feature a UPC (ultra physical contact) fiber endface, while green singlemode connectors feature an APC (angled physical contact) fiber enface. And yes, it's important to understand the difference – especially when it comes to testing.

Q: Are fiber patch cables crossed?

A: Traditionally, fiber links are made where pairs of fibers are crossed between patch panels so fiber 1 at one patch panel will be connected to fiber 2 at the patch panel on the other end, fibers 3/4. 5/6. etc. are handled likewise. Thus, when connecting patchcords, fiber 1 (or the odd numbered fibers) can always go to the transmitter and fiber 2 (or all even numbered fibers) goes to a receiver and proper connectivity is maintained, allowing the use of straight through duplex patch cords.

Q: How long can a fiber patch cable be?

A: Although the maximum distance of fiber optic cable is affected by both attenuation and dispersion, for most applications, the maximum distance of any type of fiber optic cable is around 62.14 miles (100 kilometers). However, some applications require longer distances. For these applications, fiber optic cables with special dispersion-compensating fibers can be used. These cables can extend the maximum distance to around 124.28 miles (200 kilometers).

Q: How thick is a fiber patch cord?

A: They are available in either riser or plenum flame rating, and have a 2.0mm or 3.0mm thick color-coded jacket. Standard patch cords are available in simple or duplex style, have matching connectors at each end and are available in 1, 2, 3, 5, and 10 meter lengths. They feature low connector insertion loss to ensure proper operation upon installation. Duplex cable is conveniently labeled with an A or B to identify the connector at each end.

Q: How can you get the most out of your fiber optic cable range?

A: If you want to make sure that you're maximizing the potential of your fiber optic cable, it's important to follow these tips:
Make sure that your cable is properly installed and terminated.
Inspect your cable regularly for any damage or signs of wear and tear.
Use a high-quality cable from a reputable manufacturer.

Q: Is fiber-optic good for long distances?

A: Fiber optic cables are perfect for long-distance applications. They can carry information over very long distances with very little signal loss. Additionally, fiber optic cables are not affected by electromagnetic interference (EMI), making them ideal for use in environments where EMI is a concern.

Q: What is the maximum distance of single-mode vs. multimode fiber optic?

A: There are two main different types of fiber optic cable: single-mode fiber and multimode fiber cable. Single-mode is typically used for long-distance applications, while multimode is typically used for short distances. The maximum distance for single-mode fiber optic cable can extend up to several hundred kilometers, making it ideal for long-distance communication. One type of single-mode fiber is known as "G.652," which is commonly used in telecommunications networks.

Q: How fast is a fiber optic patch cord?

A: The Cat7 cable, with the better network cable, has a transmission data frequency of at least 500MHz, which is more than twice that of Cat6 and Cat6e, and the transmission rate reaches 10Gbps. Fiber optic patch cable is the fastest medium for data transmission at this stage, which can reach 40G-100G.

Q: How many types of fiber patch cords are there?

A: Single mode fiber can often be divided into two types: OS1 and OS2. Multimode fiber patch cable: Multimode fiber patch cable allows multiple modes of light to travel through the fiber core and it is more suitable for short-distance transmission within the building or office.

Q: How to Choose the Best Fiber Patch Cord?

A: Step 1: Determine What Connector Type You Need.
Step 2: Decide Which Fiber Cable Mode You'll Use: Multimode or Single-Mode.
Step 3: Decide Between Simplex or Duplex Fiber Strands.
Step 4: Select Your Desired Cable Length.
Step 5: Choose a Connector Polish and Cable Jacket.

Q: What type of patch cord is multimode?

A: Multi-mode fiber optic patch cords are known as 50/125. This indicates that the interior of the cable, is a glass or plastic core with a diameter of 50 microns. The 125 indicates the outer cladding layer of micron. Boot style are available in standard, duplex and uniboot, and fiber cables come in aqua.

Q: What is the diameter of a fiber patch cord?

A: Believe most people know fiber optic patch cord, it can have different diameter in indoor and outdoor fiber patch cord, usually we use in indoor is 0.9mm/2.0mm/3.0mm fiber patch cord.

Q: How do you use a fiber patch cord?

A: Remove the rubber safety caps covered on the fiber optic connectors at both ends of fiber patch cables and remember to keep these caps well. Remove the cap from the optical transceiver. Insert the cable connector into the optical transceiver.

Q: What are the four 4 types of fiber optic connectors?

A: The common types of fiber optic connectors are LC, SC, MTP/MPO, ST, and FC. LC connector, as a main fiber optic connector, tends to be the most preferred one due to its compact size, high performance, and ease of use.

We're professional fiber optic patch cord manufacturers and suppliers in China, specialized in providing customized service. We warmly welcome you to buy bulk fiber optic patch cord from our factory. All products for compatible brands are with high quality and competitive price.

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