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Zhongshan Meisu Technolody Co.Ltd
Zhongshan, China
51-100 Employees
2014
We're a China-based designer & producer of Custom Fiber Array sub-assembly, established in 2014. With a team of passionate and motivated people, we are committed to producing high-quality fiber optics for more than 20 years. As the advanced technology enterprise, MEISU owns many patent technique. All the rich experience and know-how in ultra-precise assembles enable us to offer fiber array sub-assemblies and other optical devices for different areas like optical communication, biological/chemical sensing, and laser imaging. MEISU’s industry-leading pm fiber assemblies are designed for high-performance interferometric sensors, integrated optics and communications. MEISU provides precise custom fiber array sub-assemblies and PM fiber optical devices for different areas like integrated optics, sensoring, healthcare, spectroscopy, etc. With a team have more than 20 years of experience in R&D and production of optical components, MEISU owns many patent techniques. Meisu scores 3.46 (out of 4) for its performance in Q4 2019, they offers good and professional services and response fast to RFQ & enquiries.
Product
MCF Multicore Fiber Fanout
Nissin Kasei U.S.A., Corp.
San Jose, United States
1-10 Employees
2010
Manufacture of world-classultra-precision electronic parts and sensor parts.
Product
Customized Products (Multicore Connector / Optical Fiber Assembly Products)|Optical Communication Components|Nissin Kasei Co.
Faytek
Conghua District, China
51-100 Employees
2010
Faytek designs and manufactures of fiber patch cord polishing equipments,fiber optic tools,fiber assemblies,fiber patch cord etc. Faytek manufacturing capabilities provides world class manufacturing techniques excelling in short lead-times and competitively priced products while exceeding the most stringent quality standards. Faytek is a high-tech company which integrates development, manufacture and sales. We are a 10 years professional supplier of Fibre optical products which including polishing equipment, polishing fixture, polishing Films for fiber connections; fiber tools & accessoires and fiber optical patch cords. In the decade of cooperating with our clients, we are enjoying the good reputation and win the shares from the global market with high performance of our products!
Product
Fiber Optical 4LC 2LC DLC single mode SM multimode MM multicores fiber optical patch cable used for outdoor broadcast and 5G
IPT FIBER SP Z O O
gmina Konopnica, Poland
1-10 Employees
2017
Designed and built with advanced optical fibers in mind, our new Center will be tasked to make specialty optical fibers widely available for all customers. Deriving directly from InPhoTech, a leading Polish photonic solution provider, IPT Fiber knows and understand this demand very well. With complete solutions in mind, IPT Fiber will provide the fiber optics components necessary to fully exploit the potential of our fibers. Another important driver is the increasing use of fiber optic sensors and sensing systems. For all these applications, an optical fiber serves as the key sensing element for an optical unit processing the light signal. IPT Fiber is developing an industry-grade manufacturing capability for a range of advanced optical fibers developed by our parent company InPhoTech. Few manufacturers have such infrastructure, and none of them is able to draw microstructured optical fiber in sections longer than a few kilometers. The production installation has been carefully thought through.
Core business
Multicore fiber
Multicore Technologies
Oviedo, United States
1-10 Employees
2020
Our vision is to disrupt the industrial sensing market by offering an advanced, cost effective and modular fiber optic sensing platform capable of delivering rich data streams to an ever-increasing data hungry world that will increase the efficiency, safety, and sustainability of the operations that power our economy. The uniqueness of multicore technology allows for Common modular hardware, signal conditioning, data acquisition, software and manufacturing processes. The Multicore Sensing Platform™ is built around the Modular Multicore Sensing Element™ which is sensitive to temperature, strain and bending. The Multicore Sensing Platform™ allows for multi-parameter measurements using the same instrumentation, simplifying system integrations and allowing novel control schemes. Multicore fiber technology leverages standard fiber manufacturing processes to create an optical fiber with multiple closely coupled cores to generate a high contrast interference pattern. Multicore Sensors™ use MCSE™ with generalized packaging to enhance or inhibit sensitivities for each type of measurand. This response can be easily tuned to provide high contrast chemical speciation in both static and dynamic fluid environments. The principal part of the multicore sensing system, MCSE™, are uniquely fabricated for each type of sensor.
Core business
MULTICORE FIBER
shenzhen kexint technology co.,ltd
Shenzhen, China
251-500 Employees
2010
KXIND which was founded in the year 2007 is a high-tech enterprise specialized in telecom communication network equipment research and development (R&D), manufacturing, marketing, and providing application solutions and technical services . Our services: Our company is committed to providing global telecom operators with a range of fiber-optic products from OLT to ONU. Its main products include fiber optic cable, fiber distribution box, fiber optical patchcord , MPO/MTP , and optical splitter (PLC/FBT/WDM), fast connecter , fiber optic adapters, fiber optic attenuators ,We have more than 11 years of experience in passive fiber optic products . In 2016 , we also established OLT/ONU R&D and production. Products are widely used in telecommunications, broadcasting and other fields. Rich experiences in passive production of fiber optical products ensure the reliable stabilities of its high quality and excellent performances of its goods.
Core business
96 Core 4 Into 24 Out Multicore Joint Fiber Optic Closure Enclosure Outdoor IP68 1 X 16 PLC Splitter Support
Primus Cable
Wildomar, United States
11-50 Employees
2002
Many of our products are produced in ISO9001 and ISO14001 facilities and maintain the highest standards in production and the work environment. We are a Minority Owned Business, a Better Business Bureau Accredited Business, and a member of BICSI, to mention a few. We are a company that delivers a wide array of high quality and performance based cabling and connectivity solutions. We are a company that focuses on keeping a lower cost of goods without compromising on quality. We provide an unparalleled service and strive to add value to a customer’s project. Our mission is to simplify IT, A/V and Data connectivity through our dedicated staff, excellent service and innovative solutions. At Primuscable.com we understand and respect your concern about the privacy of any information you supply while on our site. CRN Solutions LLC (DBA Primus Cable.com) is a leading supplier of low voltage wire and cable; we specialize in the quality of product that we bring to the market place.
Product
Cyclops 2 Coaxial Cable Stripper for Twisted Pair, Multicore, and Fiber Optic Cables
Shenzhen Anfkom Telecom Co.Ltd
Shenzhen, China
251-500 Employees
-
Anfkom Telcom is a professional manufacturer for fiber optic products in China, our major products include:. Fiber Optic Cable: indoor cable,outdoor cable,armored cable,FTTH Drop cable Passive products: patchcord,connector,adapter,attenuator,loopback,FBT Coupler,PLC splitter,CWDM,DWDM,MPO/MTP Cassettes,MPO Patch Panel,Accessories etc FTTH System: fiber enclosure,termination box,distribution box,Distribution Cabinet,Quick Assembly Connector,Merchanical Splicer,Cleaning Products Fiber Optic Equipment: Produce Equipment and Test equipment Active FO Products: Media Converters, SFP Transceivers, Video converter. More than 10 years fiber export experiences, our products have been approved by big customers, and serve customers from all corners of the world, such as India, UAE, Germany, France, USA, Korea, Thailand, Italy, Spain, Poland, South Africa, Argentina, Russia, etc. Our products are 100% visually and optically tested and are fully traceable through our ISO 9001:2000 certified quality system, also complied with Telcordia (Bellcore) GR-1221-CORE & GR-1209-CORE standards. More than 10 Years of Fiber Export Experiences Competitive Prices Fast delivery Free sample provided Longtime Warranty Reliable quality, OEM and ODM service available Prompt answer for any question or inquiry Low-cost International shipping Small order acceptable Drawing, Specification, Test Report can be sent at any time if a request Quality complaint will handle in 24 hours by our After-sale Service Dept New Product Sales into 100 countries worldwide approved by big customers Value-added service.
Product
Multicore Breakout Fiber Optic Patch Cord
Falcon Technologies
Maryland Heights, United States
11-50 Employees
1990
We offer bulk quantity discounts on all of our Panduit Products. It has a built-in pull string that was strong enough to pull it 400 feet through some difficult bends. So far they have been good and delivered on time. Product was available which was not the case for many other vendors at the time.
Product
Platinum Tools 15010C Cyclops 2 for Twisted Pair & Fiber Optic Cable S – FalconTech
Technologies which have been searched by others and may be interesting for you:
Some interesting numbers and facts about your company results for Multicore Fiber
Country with most fitting companies | China |
Amount of fitting manufacturers | 8 |
Amount of suitable service providers | 3 |
Average amount of employees | 11-50 |
Oldest suiting company | 1990 |
Youngest suiting company | 2020 |
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A Multicore Fiber (MCF) is an advanced type of optical fiber that consists of multiple fiber cores within a single cladding. Unlike traditional single-core fibers, where only one core is present for light transmission, multicore fibers contain several cores that can operate independently of each other, significantly increasing the total transmission capacity without the need for additional cables. This innovative design allows for the simultaneous transmission of multiple signals or data streams, contributing to a substantial boost in bandwidth. The introduction of multicore fibers has had a profound impact on telecommunications, data centers, and high-performance computing networks, offering a scalable solution to meet the escalating demand for high-speed data transmission. By enabling more efficient use of space and resources, MCFs play a pivotal role in the development of next-generation communication infrastructures. They facilitate the deployment of dense wavelength division multiplexing (DWDM) systems, which further amplifies the data carrying capacity of optical fiber networks. Moreover, multicore fibers are instrumental in advancing fields such as quantum computing and biomedical imaging by providing the necessary infrastructure for high-speed, large-volume data transfer and precise signal processing. The versatility and enhanced capabilities of multicore fibers underscore their significance in pushing the boundaries of optical communication and signal transmission technologies.
1. Increased Data Transmission Capacity
Multicore fibers significantly outperform traditional single-core fibers in data throughput. By housing multiple cores within a single fiber, they can carry several streams of data simultaneously, effectively multiplying the amount of information transmitted over the same physical medium. This feature is especially crucial in high-demand settings like data centers and telecommunications networks, where large volumes of data must be transferred quickly and reliably.
2. Enhanced Signal Integrity
Thanks to the physical separation between the cores in multicore fibers, there is a marked reduction in cross-talk, the interference between signal paths that can degrade data quality. This separation ensures that each data stream maintains its integrity, leading to clearer signals and lower error rates. As a result, multicore fibers provide a more reliable communication channel, which is vital for applications requiring high precision and minimal data loss.
3. Space Efficiency
In environments where space is at a premium, the compact design of multicore fibers offers a significant advantage. By integrating multiple cores into a single fiber, they reduce the need for multiple cables, saving valuable physical space. This efficiency makes multicore fibers an ideal choice for densely packed infrastructure projects, such as urban telecommunications networks or crowded data centers, where optimizing space can lead to cost savings and improved system organization.
While evaluating the different suppliers make sure to check the following criteria:
1. Product Quality and Specifications
Ensure the multicore fiber meets industry standards and specifications such as attenuation rate, bandwidth, and core count. High-quality materials and manufacturing processes are essential for optimal performance and durability.
2. Customization Capabilities
Determine if the supplier can customize the multicore fiber to meet specific project requirements, including fiber count, length, and coating materials.
3. Technology and Innovation
Assess the supplier's commitment to research and development. Suppliers who invest in innovative technologies can offer advanced solutions that may provide a competitive edge.
4. Cost-effectiveness
While quality should not be compromised for cost, it's essential to compare prices among suppliers to ensure you are receiving the best value for your investment.
5. Supply Chain Reliability
Evaluate the supplier's ability to deliver products on time and manage inventory effectively. A reliable supply chain minimizes project delays and ensures continuity.
6. Customer Support and After-Sales Service
Good customer service, including technical support and warranty policies, is crucial for resolving issues and maintaining a positive relationship with the supplier.
Multicore fiber technology is revolutionizing data transmission in the telecommunications industry, providing a backbone for high-speed internet services. Its ability to support vast data throughputs with minimal latency is critical for telecom providers striving to meet the ever-growing demand for quicker, more reliable internet connections. This advancement not only enhances customer satisfaction but also enables telecom companies to expand their service offerings, such as high-definition video streaming and cloud-based solutions. In the realm of healthcare, multicore fiber plays a pivotal role in telemedicine, facilitating real-time data transmission that is essential for remote patient monitoring and virtual consultations. Its high bandwidth capabilities ensure that large files, such as medical images and patient records, can be shared quickly and securely between healthcare providers, improving patient care and enabling faster diagnosis and treatment decisions. The financial sector relies on multicore fiber for high-frequency trading (HFT) where milliseconds can mean the difference between profit and loss. The superior speed and bandwidth of multicore fiber allow for the rapid transmission of large volumes of financial data, enabling traders to execute transactions almost instantaneously. This technology is critical in maintaining competitive advantage in the fast-paced world of finance. In summary, multicore fiber is a transformative technology with diverse applications across telecommunications, healthcare, and finance, driving efficiency and innovation in these industries.
Multicore fiber, a promising innovation in optical communications, is generally considered to be at a Technology Readiness Level (TRL) of 4 to 5. This estimation is based on the fact that the technology has advanced from basic principles to validation in a laboratory environment. The primary technical reasons anchoring it at this TRL involve its intricate manufacturing process and the challenge of ensuring signal integrity across multiple cores within a single fiber. Unlike traditional single-core fibers, multicore fibers must maintain minimal crosstalk between cores to prevent signal degradation, a technical hurdle that has seen significant research but requires further refinement for real-world applications. Additionally, the integration of multicore fibers with existing optical communication systems poses compatibility challenges, necessitating the development of new components and protocols to fully leverage their potential for increased data transmission capacity. The progress in overcoming these technical barriers through lab-based prototypes and testing underlines the current TRL positioning, signifying a crucial phase where the technology is transitioning from concept to tangible application, yet still requires substantial development and optimization before widespread deployment.
In the Short-Term, advancements in multicore fiber (MCF) technology are poised to significantly enhance data transmission rates. Researchers are focusing on optimizing the core design to minimize crosstalk and increase the bandwidth capacity—key efforts that could double the current data transmission speeds. This phase is also expected to see the development of more robust error-correction algorithms that can work efficiently across multiple cores, further boosting the reliability of MCF systems in high-speed networks. The Mid-Term outlook for MCF technology includes the integration of advanced photonic crystal fibers. This period will herald a shift towards the use of exotic materials and nano-engineering to control light propagation more effectively, allowing for an exponential increase in data capacity. Additionally, mid-term developments aim to standardize MCF interfaces and connectors, facilitating broader adoption in telecommunications infrastructure. These steps are critical for supporting the growing demands of cloud computing and 5G networks. Looking into the Long-Term, the horizon of MCF technology is set to be transformed by quantum computing and communications. The focus will be on leveraging multicore fibers for quantum key distribution (QKD), enabling ultra-secure communications over vast distances. Furthermore, long-term research is exploring the potential of MCF in creating a scalable quantum internet, which could revolutionize data security and computational power. This phase promises to unlock new dimensions in communication technology, pushing the boundaries of what's currently imaginable.
Some interesting questions that has been asked about the results you have just received for Multicore Fiber
What are related technologies to Multicore Fiber?
Based on our calculations related technologies to Multicore Fiber are Magnets, Printed Electronics, Industrial Amplifiers, Electronic Transducers, Electronic Oscillators
Who are Start-Ups in the field of Multicore Fiber?
Start-Ups who are working in Multicore Fiber are
Multicore Technologies
Which industries are mostly working on Multicore Fiber?
The most represented industries which are working in Multicore Fiber are Other, Telecommunications, Automation, IT, Software and Services, Import and Export
How does ensun find these Multicore Fiber Companies?
ensun uses an advanced search and ranking system capable of sifting through millions of companies and hundreds of millions of products and services to identify suitable matches. This is achieved by leveraging cutting-edge technologies, including Artificial Intelligence.