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n the digital age, where high-speed data transfer is more critical than ever, investing in the right infrastructure is key to long-term success. One of the most essential components in building a robust and scalable fiber optic network is the MPO (Multi-Fiber Push-On) connector. In this article, we’ll explore the growing role of MPO connectors in the United States, diving deep into how they can optimize fiber optic performance, reduce costs, and future-proof your network. Introduction to MPO Connectors What Are MPO Connectors? MPO connectors are a type of fiber optic connector that supports high-density, multi-fiber cables. Designed to accommodate 12, 16, 24, or even up to 72 fibers in a single connection, MPO connectors have become the go-to solution for data centers and telecom providers who need to transfer vast amounts of data at lightning-fast speeds. The growing demand for high-speed networks in the U.S. With increasing demand for cloud computing, 5G networks, and large-scale data transmission, businesses across the U.S. are turning to MPO connectors to enhance their network capabilities. Understanding MPO Connector Technology Evolution of MPO (Multi-Fiber Push On) technology The MPO connector was developed to address the need for higher fiber density in modern networks. Unlike traditional connectors such as LC or SC, which typically manage one or two fibers per connection, MPO connectors support multiple fibers in a single housing. This makes them a perfect fit for high-density applications like data centers where space and efficiency are premium concerns. How MPO Connectors enhance fiber optic infrastructure Over the years, MPO technology has evolved significantly. Early versions of MPO were limited to 12-fiber configurations, but today’s solutions include 24-fiber MPO connectors and even higher fiber counts, allowing for greater scalability and speed. MPO Connectors vs. Other Fiber Optic Connectors Differences between MPO and other connectors (LC, SC, etc.) One of the critical advantages of MPO connectors is their ability to handle significantly more data than single-fiber connectors. Here’s a quick comparison of MPO and other commonly used fiber connectors: Connector Type Fiber Count Common Applications LC 1 or 2 Single or duplex fiber connections SC 1 or 2 Telecom and data networks MPO 12, 16, 24, 32 or 36 Data centers, telecoms, cloud computing Why MPO connectors are preferred for high-density applications MPO connectors excel in high-bandwidth environments, making them the preferred choice for data-intensive applications like cloud computing and high-speed telecom networks. Types of MPO Connectors Single-mode vs. Multimode MPO connectors There are two main types of MPO connectors: single-mode and multimode. The primary difference between them lies in the type of fiber they are designed to support. Single-mode MPO connectors  are optimized for long-distance data transmission, typically used in telecom networks. Multimode MPO connectors , on the other hand, are more common in short-range applications like data centers, where high data rates over shorter distances are required. Additionally, MPO connectors can be configured with different fiber counts, with 12-fiber, 16-fiber and 24-fiber configurations being the most common. The choice between them depends on the network’s specific bandwidth needs. Advantages of Using MPO Connectors MPO connectors offer several distinct advantages for fiber optic networks, particularly in the context of large-scale deployments in the U.S.: High-speed data transmission:  MPO connectors can support the transmission of data at speeds of 100G, 200G, 400G and even 800G, making them an excellent choice for next-generation networks. Space-saving design:  With the ability to house up to 72 fibers in a single connection, MPO connectors are ideal for environments where space is limited, such as data centers. Simplified cable management: MPO connectors reduce the number of cables needed, simplifying installation and maintenance. Applications of MPO Connectors in the U.S MPO connectors are becoming indispensable in several key industries: Data Centers: As data consumption skyrockets, U.S. data centers need MPO connectors to handle high bandwidth and optimize space. Telecom Networks and 5G: MPO connectors are critical for building the infrastructure needed to support 5G technology, which is rolling out across the United States. Broadcasting and Video Production: With the rise of high-definition video content, MPO connectors enable faster and more reliable data transfer for media companies. Installation and Maintenance of MPO Connectors Common installation challenges and troubleshooting While MPO connectors offer many benefits, proper installation is essential to maximize their performance. When installing MPO connectors, technicians should be aware of potential issues like misalignment and poor cable routing, which can affect signal quality. How to install MPO connectors correctly Routine maintenance is also critical, especially in high-traffic networks. Ensuring that connectors are clean and free from dust can prevent signal degradation. How MPO Connectors Improve Network Scalability Future-proofing with MPO connectors One of the most significant benefits of MPO connectors is their ability to future-proof a network. As businesses demand faster internet speeds and larger data capacities, MPO connectors provide an easy way to scale up.  The role of MPO in expanding data capacity in modern networks Whether upgrading from 100G to 800G or beyond, MPO connectors allow companies to meet growing data requirements without overhauling their entire infrastructure. The Cost Benefits of MPO Connectors Comparing costs: MPO vs. traditional fiber optic connectors When considering long-term investments in network infrastructure, MPO connectors offer a compelling cost advantage. By reducing the number of connectors and cables needed, businesses can save on both upfront costs and ongoing maintenance. Reducing operational costs in large networks In addition, MPO connectors help lower operational costs by reducing power consumption and cooling requirements in data centers. Over time, these savings can add up, making MPO a cost-effective choice for large-scale networks. What is polarity in MPO connectors? Polarity in MPO connectors refers to the correct alignment and matching of the fibers within the connector to ensure that the optical signal (traveling from a transmitter at one end) reaches the correct receiver at the other end. Since MPO connectors can carry up to 12, 24, or more fibers in a single cable, proper polarity management is essential to avoid cross-connections or signal loss. Polarity Configurations There are three standard methods to manage polarity in MPO systems: Type A (Straight-through), Type B (Crossed), and Type C (Pair Flipped). These types determine how the fibers are arranged and connected along the cable. Type A Polarity (Straight-through) Description : In this polarity type, the fibers in the connector are arranged in the same order at both ends of the cable. That is, fiber 1 at one end connects to fiber 1 at the other end, fiber 2 to fiber 2, and so on. Connector Configuration : It uses a female connector on both ends with a key-up to key-down pin orientation. Application : It is used for duplex systems or applications where the transceivers are configured such that the transmission and reception signals are on the same fiber (duplex transceivers). Type B Polarity (Crossed) Description : In Type B polarity, the fibers are crossed, meaning fiber 1 at one end connects to fiber 12 at the other end, fiber 2 to fiber 11, and so on, completely reversing the order of the fibers. Connector Configuration : It uses female connectors on both ends with the same pin orientation (key-up to key-up). Application : It is common in parallel networks (such as in 40G/100G applications) where the transmit signals at one end must connect to the receivers at the other end. It also simplifies connections without needing to change cabling across multiple paths.  Type C Polarity (Pair Flipped) Description : In Type C, the fibers are flipped in pairs along the cable. This means that fiber 1 at one end connects to fiber 2 at the other end, fiber 2 to fiber 1, fiber 3 to fiber 4, and so on. Connector Configuration : It uses female connectors on both ends with a key-up to key-down pin orientation. Application : It is used in systems where fiber pairs need to be flipped, usually in duplex applications. It is common in networks that require quick switching between fiber pairs within the MPO cable. Importance of MPO Connector Keys Each MPO connector has a key (a small orientation tab) that helps ensure consistent connections. MPO connectors have two key orientations: Key-up : The key on one end of the connector is oriented upwards. Key-down : The key on the other end is oriented downwards. Depending on the polarity configuration (A, B, or C), the key orientation ensures the fibers align correctly between transmitters and receivers. Polarity Diagrams Type A  (Straight-through): 1→1, 2→2, 3→3... 12→12 Type B  (Crossed): 1→12, 2→11, 3→10... 12→1 Type C  (Pair Flipped): 1→2, 2→1, 3→4, 4→3... 11→12, 12→11 Why Choose the PFP MPO Spectacular® Connector Over Fixed MPO Connectors? In a world where flexibility and performance are key for network infrastructure, our   PFP MPO Spectacular® Connector  offers clear advantages over traditional fixed MPO connectors. Advantages of our PFP MPO Spectacular® Connectors Adjustable Polarity Flexibility Reduced Operational Costs Improved Cable Management Efficiency Support for Evolving Technology Superior Durability and Performance Would you like to learn more about our   PFP MPO Spectacular® Connectors? Check out our article: Why Choose the PFP MPO Spectacular® Connector Over Fixed MPO Connectors? Optimize your network with the PFP MPO Spectacular® Connector and step up to the next level of technology and performance! Conclusion: Invest in MPO Connectors for a Future-Ready Network As data demands grow, MPO connectors offer the scalability, efficiency, and cost savings necessary to build a robust and future-proof network. Whether you’re managing a data center or deploying 5G infrastructure, MPO connectors provide the performance and flexibility you need to stay competitive in the U.S. market. Investing in MPO today ensures that your network is ready for the challenges of tomorrow. FAQs About MPO Connectors What is an MPO connector, and how does it work? An MPO connector is a high-density fiber optic connector that accommodates multiple fibers in a single housing, allowing for faster and more efficient data transmission. Can MPO connectors be used in both single-mode and multimode applications? Yes, MPO connectors are available in both single-mode and multimode configurations, depending on the network's distance and bandwidth requirements. How do MPO connectors improve data transmission efficiency? MPO connectors streamline data transfer by bundling multiple fibers into a single connector, reducing the need for multiple cables and connectors. How do I choose between single-mode and multimode MPO connectors? Single-mode MPO connectors are best for long-distance data transmission, while multimode connectors are ideal for short-range, high-bandwidth applications like data centers.

Fiber optics have been around since the early 1900s, but they didn't take off until the 1990s when fiber optic technology became more affordable. Today, fiber optics are used in everything from communication systems to medical devices. Precision Fiber Products, Inc. (PFP) presents the top 8 fiber optic products that are worth the investment.   1. Epoxy : The epoxy resin market is booming nowadays. Epoxies bond two or more materials and are utilized in many different industries, including construction, automotive, electronics, aerospace, coatings for metal parts, and cable assembly production. Epoxy resins come in many forms, including liquid, powder, and paste. Epoxies are one of the most versatile materials on earth and are used in most commercial businesses, making them a worthwhile investment. We at PFP provide fiber epoxy and application accessories to meet your business requirements: Browse our epoxy products   2.  Furcation Tubing : Furcation tubing, also known as jacketing, is an important component of optical fibers. It allows light to travel through the glass without being scattered or absorbed by impurities. It protects the core from damage caused by external factors such as mechanical stress, chemical attacks, and thermal shock. All these features make it worth investing in for all fiber optic users. Protect your exposed fibers with PFP's selection of buffer furcation tubing for terminating multi-fiber cable or "fan-out" situations.   3. Test Equipment :  Fiber optic test equipment is an essential tool for testing fiber optic cables. It allows you to quickly identify problems and troubleshoot them before they cause major damage. This equipment is mostly used by technicians and engineers. The following test equipment provided by PFP is a must-invest:     - DataCom & Telecom Tool Kits     - Fiber Optic Test Equipment     - DataCom Tools & Test Equipment     - DataCom Hardware & Supplies    4. Consumables : Are your electronics, splicers, and connectors contaminated with dirt and dust? Clean your contaminated connectors with fiber optic cleaning tools and improve your fiber optic performance while maintaining high-speed, hassle-free data transmission. Precision Fiber Products, Inc. has solutions for cleaning all your fiber optic equipment, offering a wide range of products from known brands, including dry cleaning, wet cleaning, or wet-to-dry cleaning, solvents, solutions, wipes, and swabs. These consumables keep your network and fiber optic connectors running, making them worth the investment. See what we offer   5. Polishing Films :  Fiber optic polishing films are used to polish fiber optics. A fiber optic polisher is essential for anyone who works with fiber optics. These films are made from a special polymer resin that has been specially formulated to provide superior optical performance. Brands like PFP, Mipox, and 3M offer them. These polishing films improve productivity and yield for enhanced profit margins and are available in various sizes, thicknesses, colors, and mineral types, including diamond, silicon carbide, aluminum oxide, silicon oxide, and cerium oxide. Discover our range of polishing equipment   6. Ferrules : Ferrules in fiber optics are small cylindrical components typically made from materials such as ceramic, plastic, or metal. Also referred to as ferrule connectors or MPO connectors, they come in various sizes, colors, and materials, including ceramic zirconia and stainless steel. These fiber optic ferrules and assemblies are engineered for low insertion loss, minimal back reflection, and exceptional durability of your fiber optic cables, connectors, and patch cords. It's often said that "a good fiber optic connection starts with a ferrule," highlighting their importance and value as an investment. Select your type of ferrule here: Fiber Optic Ferrule s   7. Connectors : Fiber optic connectors are used to connect fiber optic cables. Most fiber optic connectors are plugs, or so-called male connectors, with a protruding ferrule that holds the fibers and aligns them for mating. Fiber optic connectors are aligned with the microscopic glass (optical fibers) to enhance perfect communication and data transfer. PFP's connector inventory includes singlemode, multimode, PM connectors , fast connectors, SC Connectors , FC connectors  and a full line of SMA medical and high-power connectors. Newly available connectors include AFL FuseConnect™ and AFL's FAST SC, ST, & LC connectors. Invest in the right choice of connector here:   Conclusion:  Investing in quality fiber optic products is crucial for ensuring reliable communication and data transmission. From epoxy to connectors, each product enhances performance and efficiency. Choose Precision Fiber Products, Inc. for the best solutions to meet your needs and keep your systems running smoothly. #PrecisionFiberProducts #ProductsWorthInvestment #DataCenters #Networking #MedicalIndustryProducts #BuyOpticalFiberProducts #BestFiberOpticTestEquipment #Pistoning #BuyEpoxy #SCconnectors #FCconnectors #SinglemodeConnectors #MultimodeConnectors

Posted by The Precision Fiber Products’ Team! The marketing team at PFP is always looking for new and interesting news. Today we are investigating all the help given to us by the advances in fiber optics. It is not only a cable that is used for telecommunications, it is having a great effect on our lives, revolutionizing the world. That's why I want to invite you to read this brief informative text. There are diseases, tumors or cancers that are very difficult to detect, but fortunately there are the ultra-thin and flexible fibers, that are the thickness of one of our hairs, which can be introduced through small incisions. By directing these fibers through the internal ducts of the body, doctors can peek into the airways of the lungs, intestinal folds, heart cavities and many other spaces that were previously inaccessible, and this facilitates obtaining fast and reliable analysis! Another breakthrough is that thanks to the emission of laser beams through fiber optics, gastroenterologists have cauterized blood vessels to stop intestinal bleeding. In the near future, fiber-optic instruments will make it possible to combine diagnosis with treatment. Think, for example, of the combination of methods for detecting cancer cells and methods for destroying them without damaging adjacent healthy tissue. There is no doubt that fiber optics is the future in the medical field as well! This knowledge is very valuable because at the end of the day our health is one of the most valuable things that we have and we must take care of it, especially in those times when our health is hanging on by a thread... There is no doubt that fiber optic networks it is an important ally for medical field .

In the 1990’s FC/APC connectors were essential to high-bandwidth systems requiring minimal return loss prominently used in CATV networks and other high-sensitivity applications. Transitioning into the early-2000s, SC/APC connectors gained popularity for their ease of installation attributed to their push/pull design. As we navigate the landscape of modern networks and look ahead, there is a growing need to minimize the interconnect form factor sizes to make room for more bandwidth. This shift is primarily driven by the escalating costs associated with data center operations and the urgent need to optimize space to support the expanding network demands. In particular, those demands are brought on by advancements in AI Technologies. While MPO and MTP connectors are very popular the necessity for single fiber APC simplex and duplex connectors remain, especially those with compact form factors for efficient interconnectivity to equipment and panels. Among the emerging preferences, LC/APC and MU/APC connectors stand out for their reduced size compared to larger counterparts like SC/APC, positioning them as the dominant choice in today's evolving network infrastructure. APC Interconnect Type Products: Problems and Solutions End-Face Angle Forming: Because APC connectors have an angled cone type end-face with a spherical radius, there is an inherent shift in the actual measured angle, necessitating adjustments during the forming and polishing process to achieve the precise eight-degree angle. For instance, cone ferrules require a fixture angle of 8.3 degrees to obtain an effective angle of 8.0 degrees. Additionally, it is critical to adhere to tolerances maintained within +/-0.25 degrees to minimize excess loss. It is imperative that test cables are certified and procured from reputable manufacturers to guarantee compatibility and prevent intermatability issues throughout the system. Key Error (Apex Offset): Because of the intricacies involved in manufacturing APC interconnect products, it is imperative that all internal and external keying components adhere to strict tolerances. The cumulative effect of tolerance stacking will lead to key error, becoming a significant factor affecting insertion loss and contributing to excess loss across all APC interconnect designs. However, maintaining consistency in high-volume production of injection-molded and machined parts can be challenging to maintain. Again a reputable connector manufacturer must be used so this is a non-issue! Ferrule Concentricity and Bore Size: The ferrule is the most critical component in any interconnect design. This is because its tolerances are maintained with an order of magnitude greater than all other components. It is advisable to select a reputable company that conducts comprehensive testing of bore size and concentricity on all products. This ensures that potential issues are identified before fibers and ferrules are permanently bonded, preventing the discovery of inferior performance after assembly Non-angularity of the Ferrule's ID Bore Hole and the End-Face: This issue, which we are prepared to reveal to the global market, may represent one of the final yield challenges that numerous ceramic ferrule manufacturers either choose not to address or fail to comprehend. It has been observed that when the ferrule undergoes polishing to approximately 0.1mm to create the APC Angle, the end-face ID bore hole shifts resulting in a non-concentric error of up to 0.003mm on a percentage of the ferrules. Precision Fiber Products (PFP) has been a key player in the manufacturing of APC connectors for over two decades. During this time we have been aware of yield issues associated with APC interconnect products. Initially, these issues were deemed acceptable given the significant benefits in return loss performance. However, we now recognize the need to improve yields and further reduce costs. Achieving this objective will require ceramic ferrule manufacturers to improve their processes. Our engineering team has conducted comprehensive evaluations of major ferrule manufacturers across Japan, China and various other regions worldwide. We have discovered that this issue is prevalent among most of them. Test Results Measuring concentricity, especially after the angled end-face has been formed, presents a challenge for many of us. Therefore, in all of our tests we opted to assess the concentricity both before and after removing 0.1mm of material from the end-face, utilizing a flat ferrule fixture for simplicity and accuracy. PFP's dedication is underscored by our engineering team's thorough comparative testing. This testing is done before and after the process of removing the 0.1mm formation from the end-face on samples from three leading ferrule manufacturers. In this way we can compare the cause and effect of creating the angle. The following are the results of these tests from 3 leading ferrule manufacturers: PFP "A" Manufacturer "B" Manufacturer "C" Conclusion Precision Fiber Products (PFP) has conducted a comprehensive analysis of several leading ceramic ferrule manufacturers to examine the impact of material removal in the creation of the angled end-face. The study reveals that the removal of 0.1mm of the material adversely affects the concentricity due to issues with the inner diameter (ID) hole’s angularity near the end-face arising during the manufacturing process of ceramic ferrules Our most sincere apologies for any redundancy, but it is crucial to emphasize the importance of procuring interconnect components from a well-regarded and knowledgeable source. Particularly one that specializes in APC styles and understands the intricacies of engineering and manufacturing. We encourage engineering teams worldwide to conduct sample testing on their APC inventory, to ascertain the presence of yield issues or substandard connectors. If you do not have a way to test concentricity, we invite you to collaborate with us. We offer complimentary concentricity testing services to confirm the quality of your components. Our sincere desire is to improve quality and reduce costs for our industry.

The constant evolution in the field of telecommunications has led to the development of more advanced technologies to meet the growing demand for fast and reliable connectivity. In this context, Multi-Fiber Push-On (MPO) connectors have emerged as an efficient solution to enhance speed and data transmission capacity in optical fiber networks. In this blog, we will explore the key advantages of MPO connectors and their impact on the telecommunications industry. What are MPO Connectors? MPO connectors are a form of fiber optic connectors that allow the connection of multiple fibers in a single connector. Characterized by their compact and efficient design, these connectors have gained popularity in applications where a high fiber density is required, such as in data centers and telecommunications networks. Advantages of MPO Connectors High Fiber Density MPO connectors offer high fiber density compared to individual connectors. This enables the transmission of large volumes of data through a single connector, optimizing space and simplifying cable management. Ease of Installation The plug-and-play connectivity of MPO connectors facilitates their installation, resulting in faster and more efficient deployment of network infrastructure. This is especially beneficial in environments where downtime must be minimized. Higher Transmission Speed MPO connectors are compatible with high-speed transmission technologies such as 40G, 100G, and beyond. This allows significantly faster data transmission speeds compared to conventional connectors, ensuring optimal network performance. Lower Signal Loss The efficient structure of MPO connectors reduces signal loss, contributing to maintaining a more consistent signal quality throughout the network. This is essential to ensure reliable and uninterrupted data transmission. Applications in the Telecommunications Industry Data Centers MPO connectors are widely used in data center environments to facilitate high-density connectivity and improve cable management efficiency. Next-Generation Networks In the deployment of next-generation networks, such as 5G, MPO connectors play a crucial role in providing the necessary capacity to handle large volumes of data and support ultra-fast transmission speeds. MPO connectors represent an advanced and efficient solution in the telecommunications industry, standing out for their ability to provide high fiber density, ease of installation, and superior transmission speeds. As the demand for increased bandwidth and performance continues to grow, MPO connectors are positioned as a strategic choice to optimize connectivity in optical fiber networks. Their role is essential in building faster, more reliable, and future-ready networks.

Posted by The Precision Fiber Products’ Team! on 24th Aug 2023 Fiber Pistoning, a significant phenomenon in the realm of fiber optic communication, has been a hot topic of interest for many telecommunication and technology industries across the world. It refers to the sub-micron movements of the optical fibers inside a buffer tube caused by temperature changes, which can detrimentally affect the signal transmission. The United States, being a leading force in technology and telecommunications, provides a dynamic and evolving landscape for fiber pistoning.  What is Fiber Pistoning? Fiber pistoning occurs when fibers move or "piston" within the buffer tube due to temperature variations. This movement may lead to optical loss, which can result in signal degradation, affecting network performance and reliability. As the fiber optic network infrastructure in the U.S. continues to grow, understanding and mitigating fiber pistoning becomes essential.  Impact on Telecommunication Infrastructure in the United States In the United States, the rapid proliferation of broadband communication and high-speed data services demands reliable, fast, and secure connections. Consequently, fiber optic cables have become the backbone of the nation's telecommunications infrastructure. Fiber pistoning poses challenges to this growing network, primarily due to its impact on signal reliability. As the U.S. spans multiple climate zones, optical fibers frequently experience fluctuating temperatures, increasing the risk of fiber pistoning. This risk is magnified in large-scale networks spanning across multiple states, where temperature variances are even more significant.  Regulatory Considerations and Standards Regulation and standardization bodies like the Federal Communications Commission (FCC) and the Telecommunications Industry Association (TIA) have acknowledged the issue of fiber pistoning. They have provided guidelines for manufacturing and installation practices, ensuring minimal impact on network performance and longevity. Standards such as ANSI/TIA-568, which governs the performance and testing of optical fibers, explicitly mention environmental factors like temperature, emphasizing the need to consider and mitigate fiber pistoning in fiber optic networks.  Fiber Pistoning and Precision Fiber Products, Inc. With more than three decades of industry experience, Precision Fiber Products, Inc. has consistently achieved and often surpassed customer expectations with regards to product quality. We have dedicated substantial resources towards research and development, with a passionate emphasis on Innovative solutions. A particular area of focus has been the minimization of fiber pistoning, a development that has yielded significant enhancements in the longevity of fiber optic networks, the security of data transmission, and overall customer satisfaction within the telecommunications sector. Our most recent pistoning test results, shows the importance that PFP places on product quality by having a group of experts work extended periods of time on testing and proving our process performance under varying temperature conditions. The initial measurements were taken, following which the cords were subjected to freezing conditions at -10.0 degrees Celsius for a duration of two hours. Subsequently, they were allowed to equilibrate to room temperature for 45 minutes, post which measurements were taken again. The cords then underwent the same procedure, but this time, they were exposed to an oven-set temperature for one and a half hours, brought back to room temperature, and measured once more. The comprehensive results of these trials, covering 36 patch cords with two tips each, can be found in the latest Test Results.          (Complete Test Results can be found on the Engineering Sample Inspection Results - SPC Fiber Pistoning) Conclusion The U.S. telecommunications market has shown adaptability and resilience in tackling the challenges posed by fiber pistoning. Through continuous innovation, stringent regulations, and proactive monitoring, the industry has managed to turn potential disruption into an opportunity for technological advancement. The mitigation of fiber pistoning is critical to maintaining the robustness of the U.S.' ever-growing fiber optic infrastructure. This is a priority in ensuring network reliability and performance, and for everyone at PFP, we view prioritizing fiber pistoning as part of our ongoing commitment to technological excellence.

Posted by The Precision Fiber Products’ Team! on 29th Dec 2021 OFC is the largest global conference and exhibition for optical communications and networking professionals. PFP is elated to announce that we are among the esteemed exhibitors participating in the OFC event. OFC provides a great opportunity for the Engineering Community and Innovators to accelerate their advances in the optical fiber community. The Expo is held once a year and allows great exhibitors in the field of fiber optics to congregate. There will be conferences, discussions, development of new products, and applications in the field of fiber optics. It provides a platform for industrialists and exhibitors to present what the audience is searching for. Above all, OFC contributes to directing the advancement of technology. Precision Fiber Products Inc.’s CEO, Ray Pierce, along with the Engineering Group, has made great progress in this industry. We will present ourselves with the most advanced topics and will demonstrate our Newly Developed Polishing System: PFP Spectacular Polishing System. We will also show the newest products we are offering to the market along with a sneak peak of great products being developed for the near future. We will be happy to answer all your product related questions in person. Please visit us from March 6th to 10th at the OFC 2022 in the San Diego Convention Center, Booth 2600. "Our Team looks forward to meeting you!"