DWDM Series Products

Build a High-speed, Large-capacity, Long-distance, Multi-wave Trunk Network

Compact Design  |  1+1 Hot Backup  |  Flexible Networking  |  Remote Management

10G/25G/100G/200G Equipment, Adapt to Different Bandwidth

10G/25G/100G/200G devices with multiple rates can easily adapt to the needs of different services such as SDH/SONET, Ethernet, SAN, OTN, Video, CPRI, eCPRI, and FC.

Support Multiple Services, Saving Fiber Resources

Multiplexing multiple services onto one fiber, supporting simultaneous transmission of multiple signals, maximizing fiber utilization, saving fiber laying costs, and meeting CWDM/DWDM wavelength multiplexing transmission.

Compact Design, Flexible Networking

Through excellent heat dissipation design and power supply design, it is equipped with industrial chips, and is designed in accordance with the standard 1U/2U/6U compact slot to meet the deployment requirements of different computer rooms.

Hot Pluggable, 24 Hours Online

Different service boards support hot pluggable and can be used in the whole series of chassis, which greatly improves the reliability, rapid recovery and redundancy of the system.

Remote Management, Easy Maintenance

Using Web, CLI and other management methods, it has functions such as real-time status, software update, threshold alarm, optical cable protection, configuration parameter query, etc., which greatly reduces equipment maintenance costs.

Application Scenarios

C-Data DWDM series products provide long-distance and large-capacity transmission network solutions for carrier operators, MSO/ISP, IDC service providers, and special network customers.

Huawei Launches Three Innovative All-Optical Products to Open Up F5.5G Commercial Use

During MWC24 Barcelona at Huawei Product and Solution Launch, Bob Chen, President of Huawei Optical Business Product Line, launched the industry's first DC-oriented OTN product, OptiX OSN 9800 K36; the industry's first intelligent OLT product, OptiXaccess MA5800T; and the industry's first FTTR+X product, iFTTR OptiXstar F50 for ultra-broadband backbone, 10G access, and all-optical smart home scenarios. The three innovative products help operators build an F5.5G all-optical target network and accelerate development of 10G ultra broadband, together opening up the commercial use of F5.5G. In November 2023, ETSI released the F5G Advanced Generation Definition. Huawei has worked with leading operators around the world to carry out F5.5G innovation and practice, with key F5.5G technologies and products including Wi-Fi 7, 50G PON, 400G, 800G backbone networks and OXC already in wide use. 10G connectivity is fundamental to the popularization of intelligent applications. Many countries and regions around the world have released 10G development plans and initiated the construction of 10Giga City. To boost further development of F5.5G, Bob Chen, President of Huawei Optical Business Product Line, noted that operators need to build an F5.5G all-optical target network that supports "1+3+4" core features amid 10G ultra broadband development. That is, centered around 1 network goal: 10Gbps ultra broadband; achieving 3 network capabilities: 10Gbps ubiquitous access, metro network reducing latency to 1ms, and backbone network achieving 99.9999% availability; building 4 network architecture: backbone network deploys 400G, 800G OTN to connect data centers, metro network requires 100G to COs, access network uses 50G PON to homes and enterprises, and connects 10Gbps to room. Bob Chen, President of Huawei Optical Business Product Line, launches three innovative products To support the construction of the F5.5G all-optical target network with "1+3+4" architecture, Huawei has launched three innovative all-optical products. - Ultra-broadband backbone: Huawei has launched OptiX OSN 9800 K36, the industry's first DC-oriented OTN product. It has three innovations. First, it provides single-wavelength 1.6Tbps, 33% higher than the next highest rate — 1.2Tbps. It also reduces the per-bit cost by 30%. Second, it has an innovative dual-3D orthogonal architecture that doubles the number of supported slots, and delivers a single-subrack switching capacity of more than 100T, easily coping with traffic surges. Third, its built-in intelligent unit enables ms-level detection and real-time intelligent fault analysis, thereby improving network availability. - 10G access: MA5800T, the industry's first intelligent OLT product, brings three upgrades. First, the capacity of a single slot on the device reaches 2T, more than twice the industry average, and can evolve to 200G PON. Moreover, it is compatible with existing GPON and 10G PON. Second, the product implements physical isolation for services through an innovative architecture, ensuring E2E deterministic latency and jitter for premium services. Third, its built-in intelligent computing unit improves user experiences in all aspects. - All-optical smart home: iFTTR F50, the industry's first FTTR+X product, supports more functions besides network connection. It has three innovations. First, with a C-WAN architecture plus Wi-Fi 7, iFTTR F50 increases the access rate to 3000 Mbps. Second, based on accurate clock synchronization, it shortens the roaming handover time to 10ms and eliminates packet loss. Third, its built-in storage and computing unit provides users with a maximum of 8TB storage space and intelligent album search functions. Bob Chen, President of Huawei Optical Business Product Line, said, "2024 is the first year of F5.5G commercial use, and fixed networks will take a new leap forward. Amid the development of 10G ultra broadband, Huawei released three innovative all-optical products: DC-oriented OTN product OSN 9800 K36, intelligent 10G OLT product MA5800T, and FTTR+X product iFTTR OptiXstar F50, helping operators build the F5.5G all-optical target network with "1+3+4" core features, continuously broaden service boundaries, and advance the intelligent world." Read the full article

Step Into the Future With 400G ZR+Coherent Pluggable Optics

400G ZR+ coherent pluggable optics has become a new solution for high-density networks with data rates from 100G to 400G featuring low power and small space. Let's see how the latest generation of 400G ZR+ optics extends the economic benefits to meet the requirements of network operators, maximizes fiber utilization, and reduces the cost of data transport.

What is 400G ZR+?

400G ZR+ is a range of coherent pluggable optics solutions with line capacities up to 400Gbps and reaches well beyond 80km.

Why Use 400G ZR+?

400G ZR+ is a leap forward in the application of coherent technology. With higher-order modulation and DWDM unlocking high bandwidth, the 400G ZR+ module can reduce cost and complexity for high-level data center interconnects. 400G ZR+ takes implementation challenges to the next level by adding some elements for high-performance solutions while pushing component design for low power consumption, pluggability, and modularity.

Application Scenarios 

Extended-reach P2P Packet

400G ZR+ is a straightforward extension of 400G ZR transcoded mappings of Ethernet with a higher performance FEC to support longer reaches. 400G ZR+ modules are narrowly defined as supporting a single-carrier 400Gbps optical line rate and transporting 400GbE, 2x 200GbE, or 4x 100GbE client signals for point-to-point reaches (up to around 500km).

Multi-span Metro OTN 

400G ZR+ support OTN, for example, client mapping and multiplexing into FlexO interfaces. In addition, 400G ZR+ supports the additional requirements of OTN networks, carries both Ethernet and OTN clients, addresses transport in multi-span ROADM networks, operationalizes OTN regens, and supports multi-lambda bonding applications. It is required where the demarcation is crucial to operators and is destined primarily for optical transport platforms.

Multi-span Metro Packet 

400G ZR+ extended reach Ethernet or packet-transcoded solutions that are further optimized for critical performance metrics such as latency, throughput, and timing. This 400G ZR+ coherent pluggable with high-performance FEC and sophisticated coding algorithms supports the longest reach over 1000km multi-span metro packet transport.

Multi-span Metro Regional OTN

400G ZR+ supports extended reaches such as in multi-hop, metro-regional ROADM networks with OTN support. It leverages high-performance FEC and PCS, along with tunable optical filters and amplifiers for maximum reach. 400G ZR+ supports Ethernet and OTN clients, and a rich feature set of OTN network functions for deployment over fixed and flex-grid line systems.

Conclusion

400G ZR+ provides a comprehensive, open, and flexible coherent solution in a relatively smaller form factor pluggable module. It addresses hyper-scale data center applications for high-intensive edge and regional interconnects.

Sun Telecom specializes in providing one-stop total fiber optic solutions for all fiber optic application industries worldwide. Contact us if you have any needs.

Company Profile

https://www.optical-sintai.com/company-profile.html

Guangzhou Sintai Communication Co., Ltd, which was founded in early 2013, is specialized in the optical transmission field with R&D, production, sales and customer service. And shortly after that our OTNS8600 optical transmission network system was brought to the market. Especially, we were the one of the first companies to provide 100G wavelength division products with professional solutions in the industry in 2015. We’ve been dedicated to providing optical transmission network systems and optical transmission optimization solutions and have become one of the top optical communication products manufacturers and service providers in China.

 We are committed to providing integrated optical transport network systems and optical transport optimization solutions, and our products mainly contain the WDM/ OTN systems (10G/ 25G/ 40G/ 100G/ 200G WDM system, 5G fronthaul transmission WDM systems), optical amplifier system (OEO/ EDFA/ SOA), optical protection system (OLP/ OBP/ FMS), passive optical device (AWG/ CWDM/ DWDM MUX&DEMUX/ DCM/ Splitter) and optical transceivers (SFP/ SFP+/ SFP28/ QSFP+/ QSFP28/ CFP/ CFP2). They are widely used by telecom operators and private network industry customers, including ISP, electric power, IDC, education, transport, radio and television, network security, big data and cloud services, etc.

 Our products have its patented technology through our independent R&D and won the authorized certification, such as the design patent certificate, software copyright register certificates and series of quality management and test certificates.

 After years of development, our products and services have extended to various industries at home and abroad. Our company base is at Guangzhou with branches at North, Northwest and East China. And the establishment of brand advantage has promoted the construction of our international marketing network. The awareness of Sintai is continuously increasing in the key markets. Our overseas business has extended to Europe, Middle East, Southeast Asia, North America, South America, Africa and so on.

 In order to support our increasing domestic and overseas markets, we have built professional production team, sales team, service team and R&D team to provide the industry-leading and comprehensive products. With many years’ experience of optical communication technology, we are focusing on optical transmission and optical device technology to continuously provide a forward-looking technology development strategy and products with core market competitiveness. And we are dedicated to provide every customer the perfect pre-sales, sales and after-sales service. Customers’ concerns will be always taken good care of by our professional service teams.

 Over the years, Sintai has been centering on offering customer oriented service, high quality products and optimized optical transport solutions in the optical transmission field. Creating value for customers, achieving common development with customers and making contributions to the society will always be the fundamental and mission of the company's long-term work.

Huawei Certification H19-315-ENU Real Questions

To help you pass your H19-315-ENU HCSA-Presales-Transmission & Access exam, you can study PassQuestion HCSA-Presales-Transmission & Access H19-315-ENU Real Questions with less effort. You would have a basic and advanced understanding of all the concepts of HCSA-Presales-Transmission & Access certification. These H19-315-ENU questions and answers are ready by the Huawei experts so it will allow you to prepare and pass the exam with brilliant results. With the help of PassQuestion HCSA-Presales-Transmission & Access H19-315-ENU Real Questions, you would be able to pass this exam in the first attempt with maximum grades.

HCSA-Presales-Transmission & Access Certification (H19-315)

With HCSA-Presales-Transmission & Access certification (Exam Code: H19-315) , you will obtain basic principle of WDM/Access and an in-depth understanding of Huawei DCI & Campus Optix product and Solutions, will be able to provide customization, and possess pre-sales design capabilities on marketing DCI & Campus Optix products and solutions.This HCSA-Presales-Transmission & Access certification is for sales professionals of partners who sell the Huawei DCI& Campus Optix product, and those who want to obtain the HCSA-Presales-Transmission & Access certification.

Exam Details

Exam Code: H19-315 Exam Type: Written examination Exam Format: Single-answer Question, Multiple-answer Question, True or false Time: 90 min Passing Score/Total Score: 600/1000 Exam Cost: 100USD Language: English,Japanese

HCSA-Presales-Transmission & Access Exam Knowledge Points

1.WDM OTN principle 5% 2.OptiXtrans DC908 Solutions and Technologies Introduction 20% 3.OptiXtrans DC908 Specification & Hardware Introduction 15% 4.OptiXtrans DC908 Network Design & Configuration & Quotation 10% 5.PON Principle Introduction 5% 6.Huawei Campus OptiX Solution Introduction 20% 7.Huawei Campus OptiX Solution Hot-sale Product 15% 8.Huawei Campus OptiX Solution Network Design and Quotation 10%

View Online HCSA-Presales-Transmission & Access H19-315-ENU Free Questions

In the WDM model, which functional unit completes the O-E-O conversion? A. OLA B. MUX C. DEMUX D. OTU Answer: D

Where are the main application scenarios of DC908? A. Metro complex network B. Backbone C. DC point-to-point interconnection Answer: C

What is the smallest device currently provided by Huawei's transmission products? A. OptiXstar A810 B. OptiXtrans E6604 C. OptiXtrans E6608 D. OptiXtrans E9605 Answer: A

What are the highlights of the enhanced MSTP? (Multiple choice) A. Smart Hard Pipe B. Large bandwidth, high integration, flexible configuration C. Physical isolation, high security D. Operation and maintenance are consistent with traditional SDH Answer: ABCD

What are the components of 100G key technologies? (Multiple choice) A. WDM side interface technology B. OTN Processing Technology C. Client-Side Interface Technology D. Dispersion compensation technology Answer: ABC

What are the advantages of Huawei's financial data center transmission solution? (Multiple choice) A. Low latency B. Large bandwidth C. Multi-service interface and compatibility D. High reliability and easy operation and maintenance Answer: ABCD

What are the software and hardware protections supported by Huawei's distribution network PON solution? (Multiple choice) A. Hand in hand protection B. 6kV lightning protection for power and communication ports C. AES encryption D. Two-fiber bidirectional multiplex section protection Answer: ABC

The advantages of PON access are low cost and high reliability A. True B. False Answer: A

SFP-10G-SR vs SFP-10G-SR-S

SFP-10G-SR vs SFP-10G-SR-S

SFP-10G-SR is a famous 10G SFP+ optical transceiver in relates to to quantity used. It is considered as the standard create aspect of the 2017 market due to its created technology and reduced set you back, additionally although 40G/100G optical elements hop on the actually top pattern for service and details center. Nonetheless, 4 years back, Cisco offered S-class optics such as SFP-10G-SR-S for service and details center applications. For some net searchers, he will be recommended with SFP-10G-SR-S rather than SFP-10G-SR. Nonetheless they almost share the precise very same high top qualities, so SFP-10G-SR vs. SFP-10G-SR-S, why choose one over the numerous various other? Want this short post could give some tip.

SFP-10G-SR vs. SFP-10G-SR-S: Similarity SFP 10G SR

Reasonably and almost, they don't have actually a great deal difference. SFP-10G-SR-S shares the precise very same thing specification with SFP-10G-SR. SFP-10G-SR is licensed with 10GBASE-SR fundamental. The Cisco 10GBASE-SR part sustains an internet web link dimension of 26m on fundamental Fiber Spread Details Interface (FDDI)-grade multimode fiber, as high as 300m internet web link dimensions over OM3 and 400m internet web link dimensions over OM4 cord tvs.

Cisco SFP-10G-SR transceiver is hot-swappable input/end result gizmo which allows a 10 Gigabit Ethernet port to connect to a fiber optic network. Since it is hot-swappable and MSA licensed, the Cisco SFP-10G-SR transceiver can surely be linked directly into any type of kind of Cisco SFP+ focused transceiver port, without the need to power down the hold network system. This capability makes relocations, accessories and exchanges quickly and pain-free.

SFP-10G-SR vs. SFP-10G-SR-S: Difference

Inning conformity with Cisco, S-class optics are indicated for service and details center 10G and 40G applications This new develop of optics does not reveal a variety of unneeded works for these applications, bringing relating to a a lot more enticing set you back. That goes over why SFP-10G-SR-S set you back is much less compared to SFP-10G-SR set you back.

Besides the set you back, there are various other differences. SFP-10G-SR-S optics commonly typically aren't TAA accredited. Nonetheless, the non-S-class optics such as SFP-10G-SR are all licensed to TAA. SFP-10G-SR-S optics simply have actually COM (Commercial temperature level degree differ: 0~70℃). Nonetheless, the temperature level degree range of SFP-10G-SR can surely be EXT (Extended temperature level degree differ: -5~85℃), IND (Industrial temperature level degree differ: -40~85℃) and Storage space room temperature level degree differ (-40~85℃). In relates to to treatments, SFP-10G-SR-S optics use Ethernet simply, they cannot use OTN (Optical Move Network) or WAN-PHY (Wide Area Network Physics). Furthermore, SFP-10G-SR-S optics just have actually 10G and 40G applications up previously which is specified for 10G and 40G service and details center. As a result, if you don't need any type of kind of special works like extra resistance for temperature level degree, S-Class optics can surely preserve you a considerable amount of money.

SFP-10G-SR Set you back Comparison

Since tools SFP-10G-SR distributors all depend upon MSAs when establishing their transceivers, every service company can surely produce the transceiver elements with the precise very same functions nonetheless with numerous expenses. Unless you have actually a 100% need to buy Cisco, there are a good deal of 3rd event ideal distributors readily available that you can preserve a good deal of money by using. Here is an expense detailing from numerous distributors for you to choose from. Cisco SFP 10G SR

Last idea

Although SFP-10G-SR vs. SFP-10G-SR-S, they share comparable specification, there still are some tiny difference. In most cases, SFP-10G-SR-S optics are recommended for 10G and 40G applications due to its affordable.both SFP-10G-SR set you back and SFP-10G-SR-S set you back is relatively minimize inning conformity with the over chart, and they also value premium quality.

SFP-10G-SR-S and SFP-10G-SR, why choose one instead of the other?

SFP-10G-SR-S and SFP-10G-SR

In terms of the quantity used, the SFP-10G-SR is a popular 10G SFP+ optical transceiver. Although the 40G / 100G optical module is the most important trend in the interconnection of enterprises and data centers, it is considered to be the mainstream shape of the 2017 market due to mature technology and lower prices. But two years ago, Cisco introduced S-class optics for enterprise and data center applications, such as the SFP-10G-SR-S. For some web searchers, he will be recommended to use SFP-10G-SR-S instead of SFP-10G-SR. But they have almost the same characteristics, so why choose SFP-10G-SR-S compared with SFP-10G-SR? I hope this article may give some clues.

SFP-10G-SR-S and SFP-10G-SR: Similarity

On the surface and technically, they are not much different. The SFP-10G-SR-S shares the same product specifications as the SFP-10G-SR. The SFP-10G-SR complies with the 10GBASE-SR standard. The Cisco 10GBASE-SR module supports the standard fiber-optic fiber-interface (FDDI) - the length of the connector up to 300 meters in OM3 format in 26-meter and the connecting length in 400 in OM4. The Cisco SFP-10G-SR transceiver is a hot-swappable input/output device that allows 10 Gigabit Ethernet ports to interface with fiber optic networks. Because it is hot-swappable and MSA-compatible, the Cisco SFP-10G-SR transceiver can be plugged directly into any Cisco SFP+-based transceiver port without shutting down the host network system. This feature makes moving, attaching and swapping fast and easy.

SFP-10G-SR-S and SFP-10G-SR: Difference

According to Cisco, S-class optics are suitable for enterprise and data center 10G and 40G applications. This new optics does not offer a variety of unnecessary features for these applications, resulting in a more attractive price. This explains why the SFP-10G-SR-S price is lower than the SFP-10G-SR price.

In addition to the price, there are other differences. The SFP-10G-SR-S optics are not TAA certified. However, non-S-class optics such as the SFP-10G-SR are compliant with TAA. The SFP-10G-SR-S optics are only COM (commercial temperature range: 0~70 °C). However, the temperature range of the SFP-10G-SR can be EXT (extended temperature range: -5 to 85 ° C), IND (industrial temperature range: -40 to 85 ° C) and storage temperature range (-40 to 85 ° C). In terms of protocols, SFP-10G-SR-S optics use only Ethernet, they cannot use OTN (Optical Transport Network) or WAN-PHY (Wide Area Network Physics). In addition, SFP-10G-SR-S optics have so far only available in 10G and 40G applications for 10G and 40G enterprise and data centers. So if you don't need any special features, such as extra temperature tolerances, S-class optics can save you a lot of money.

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FPGA in Telecom Sector Market Report Expected to Raise Moderately over Global Forecast till 2023

Field-programmable gate array (FPGA) in telecom sector market is attracting eyes as the demand for power-efficiency and high-performance IC design is surging with each passing day. FPGA is a programmable conductor device which can support high-speed serial lanes up to 32GB/sec and integrate hard IP for 100G Ethernet, PCI Express Gen4, and DDR4 memory controllers. The global FPGA in telecom sector market is touted to grow with an impressive 9% CAGR during the forecast period (2017-2023) and scale a market valuation of USD 1625 million by 2023, confirms Market Research Future (MRFR) in a detailed analysis. The report further includes FPGA’s ability to provide bandwidth to service operators in their effort to attain compatible networks from 2G, 3G, or long-term evolution (LTE) connections.

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https://www.marketresearchfuture.com/sample_request/1365

Segmentation:

The global FPGA in telecom sector market can be segmented by technology, configuration, node size, and application.

By technology, the FPGA in telecom sector market includes SRAM, flash, and antifuse. SRAM segment currently dominates the market owing to their easily reconfigurable features.

By configuration, the FPGA in telecom sector market can be segmented into low-end FPGA, mid-range FPGA, and high-end FPGA.

By node size, the FPGA in telecom sector market comprises less than 28 nm, 28–90 nm, and more than 90 nm.

By application, the FPGA in telecom sector market consists 4G, 3G, WiMax, and LTE.

Regional Analysis:

Region-specific analysis of the FPGA in telecom sector market spans across North America, Europe, Asia Pacific (APAC), and Rest-of-the-World (RoW).

The APAC market is the market frontrunner and its market dominion can remain unfazed during the forecast period. China, Japan, India, and South Korea are the major markets that can contribute to the FPGA in telecom sector market growth. These countries are experiencing astounding revamping, and as a result, electronic products are getting unprecedented thrust, enriching the market scope for FPGA. Furthermore, the cost of smartphones and tablets have dipped which is a good indicator for the FPGA in telecom sector market. China and India have taken steps of raising foreign investment that are way ahead of the time.

North America is also going to gain considerable ground during the forecast period. Many of the companies are based out of this region which gives the regional market much-needed thrust. Europe’s market is expected to remain steady during the forecast period.  

Market Insight:

The global FPGA in telecom sector market banks on various strategic moves by market influencers. These companies employ tactics that include merger, acquisition, collaboration, and other methods to stay afloat in the market and in the process assist the market in expansion.

Xilinx Inc., in 2018, is acquiring DeePhi Tech, a Beijing-based company with expertise in machine learning, specializing in deep compression, pruning, and system-level optimization for neural networks. The deal is expected to improve Xilinx’s data center and intelligent edge applications.

Microsemi Corporation and China Telecom are collaborating on next generation optical transport networks based on Optical Transport Network (OTN) technology in an effort to adhere to 5G requirements. They announced their plan to collaborate in June 2018.

The key players in FPGA in telecom sector market include Xilinx Inc. (U.S.), Microsemi Corporation (U.S.), Lattice Semiconductor (U.S.), Achronix Semiconductor Corporation (U.S.), Atmel Corporation (U.S.), S2C Inc. (U.S.), Texas Instruments (U.S), Cypress Semiconductor (U.S.), Intel Corporation (U.S.), Aeroflex Inc. (U.S.), Achronix Semiconductor Corporation (U.S.), QuickLogic Corporation (U.S.), SiliconBlue Technologies (U.S.), Tabula (U.S.), Applied Microcircuits Corporation (U.S.), Taiwan Semiconductor Manufacturing Company Ltd. (Taiwan), and others.  

Brows More Details of  FPGA in Telecom Sector Market @ https://www.marketresearchfuture.com/reports/fpga-in-telecom-sector-market-1365

 About Market Research Future:

At Market Research Future (MRFR), we enable our customers to unravel the complexity of various industries through our Cooked Research Report (CRR), Half-Cooked Research Reports (HCRR), Raw Research Reports (3R), Continuous-Feed Research (CFR), and Market Research & Consulting Services.

The Secrets Of Light Sensors Market 2023 In One Place - Check It Now ($27.60 Billion Market)

“Fiber Optic Components Market by Component (Transceivers, AOCs, Cables, Amplifiers, Splitters, Connectors, Circulators), Data Rate (10G, 40G, 100G, above 100G), Application (Communications, Distributed Sensing) - Global Forecast to 2023"

The  fiber optic components market is expected to grow from USD 17.15 Billion in 2018 to USD 27.60 Billion  by  2023, at a CAGR of 10%. The factors that are driving the growth of this market are  the increasing deployment of data centers, growing internet penetration and  data traffic, and rising demand for bandwidth and reliability.

Finisar provides a broad portfolio of optical subsystems, which includes transmitters, receivers, transceivers, transponders, amplifiers, and active optical cables, mainly based on the Ethernet, Fiber channel, OTN, and SONET/SDH protocols. The company spends around 15% of its revenue in R&D activities in 2016. To grow in this market, it focuses mainly on the organic growth strategy of product launches.

For instance, in September 2016, Finisar launched its CPRV422XA family of high-bandwidth OIF Micro-ICR Class 40 receivers. The CPRV422XA receiver enables the next-generation coherent transmission systems targeting single-wavelength applications with a speed of up to 600 Gbps.

Download PDF Here: https://www.marketsandmarkets.com/pdfdownloadNew.asp?id=63775446

Lumentum is a global technological firm that develops and manufactures optical communication products and industrial lasers. The company focuses on its optical communication segment, which accounts for the maximum share of its revenue.

Lumentum follows technology leadership by working on collaborative innovations (with its customers), cost leadership, and functional integration strategies. The company aligns its latest technologies with the industry-leading technologies, along with skilled operations, to drive its optical communication segment to serve the growing needs such as increasing transmission speed and high-speed interconnects.  To grow in fiber optic components market, it focuses on the organic growth strategy of product launches. For instance, in March 2016, Lumentum launched the 10Gbps tunable SFP+ optical transceiver. The newly developed transceiver would provide solutions for network-edge applications and can work at low power.

Other major companies operating in the fiber optic components market are Acacia Communications (US), EMCORE (US), Fujitsu Optical Components (Japan), Furukawa Electric (Japan), II-VI (US), NeoPhotonics (US), Oclaro (US), O-Net Technologies (China), Reflex Photonics (Canada), and Source Photonics (US).

For more information visit:https://www.marketsandmarkets.com/PressReleases/fiber-optic-component.asp

Contact: Mr. Shelly Singh MarketsandMarkets™ INC. 630 Dundee Road Suite 430 Northbrook, IL 60062 USA : 1-888-600-6441.

Step Into the Future With 400G ZR+Coherent Pluggable Optics

400G ZR+ coherent pluggable optics has become a new solution for high-density networks with data rates from 100G to 400G featuring low power and small space. Let's see how the latest generation of 400G ZR+ optics extends the economic benefits to meet the requirements of network operators, maximizes fiber utilization, and reduces the cost of data transport.

What is 400G ZR+?

400G ZR+ is a range of coherent pluggable optics solutions with line capacities up to 400Gbps and reaches well beyond 80km.

Why Use 400G ZR+?

400G ZR+ is a leap forward in the application of coherent technology. With higher-order modulation and DWDM unlocking high bandwidth, the 400G ZR+ module can reduce cost and complexity for high-level data center interconnects. 400G ZR+ takes implementation challenges to the next level by adding some elements for high-performance solutions while pushing component design for low power consumption, pluggability, and modularity.

Application Scenarios 

Extended-reach P2P Packet

400G ZR+ is a straightforward extension of 400G ZR transcoded mappings of Ethernet with a higher performance FEC to support longer reaches. 400G ZR+ modules are narrowly defined as supporting a single-carrier 400Gbps optical line rate and transporting 400GbE, 2x 200GbE, or 4x 100GbE client signals for point-to-point reaches (up to around 500km).

Multi-span Metro OTN 

400G ZR+ support OTN, for example, client mapping and multiplexing into FlexO interfaces. In addition, 400G ZR+ supports the additional requirements of OTN networks, carries both Ethernet and OTN clients, addresses transport in multi-span ROADM networks, operationalizes OTN regens, and supports multi-lambda bonding applications. It is required where the demarcation is crucial to operators and is destined primarily for optical transport platforms.

Multi-span Metro Packet 

400G ZR+ extended reach Ethernet or packet-transcoded solutions that are further optimized for critical performance metrics such as latency, throughput, and timing. This 400G ZR+ coherent pluggable with high-performance FEC and sophisticated coding algorithms supports the longest reach over 1000km multi-span metro packet transport.

Multi-span Metro Regional OTN

400G ZR+ supports extended reaches such as in multi-hop, metro-regional ROADM networks with OTN support. It leverages high-performance FEC and PCS, along with tunable optical filters and amplifiers for maximum reach. 400G ZR+ supports Ethernet and OTN clients, and a rich feature set of OTN network functions for deployment over fixed and flex-grid line systems.

Conclusion

400G ZR+ provides a comprehensive, open, and flexible coherent solution in a relatively smaller form factor pluggable module. It addresses hyper-scale data center applications for high-intensive edge and regional interconnects.

Sun Telecom specializes in providing one-stop total fiber optic solutions for all fiber optic application industries worldwide. Contact us if you have any needs.

100G OTN Muxponder

https://www.optical-sintai.com/products/100g-otn-muxponder.html

OTNS8600 100G OTN is a 10x10G service convergence platform launched by Sintai Communication Co., Ltd.  It uses industry-leading chip technology, supports OTN related standards and can converge any 10-channel 10G services into 1-channel 100G services.

 100G OTN Muxponder Features

l Muxponder Mode for Aggregation Services 10x8/10G into 100G OTU4 DWDM Lineside

 l 100G Transponder and Regenerator Mode Optional

 l Client-side supports 10G LAN/WAN, 8G/10G FC, STM64/OC192, OTU2, OTU2e, 100GbE

 l Standards-based ITU-T G709 RSFEC, I.4, I.7

 l Supports full C-band DWDM and Coherent CFP for line side

 l Performance Monitoring

 l Remote management with 2x OSCs and 1x1000Base- T port

 l Automatic Laser Shutdown(ALS) for all ports

 100G OTN Muxponder Applications

The 100G pluggable card in OTNS8600 chassis is Sintai 100G Multi-protocol Muxponder/Transponder/Regenerator for high capacity transport solutions, it allows migration exist various and future services without replacement.

 100G OTN Muxponder Application Scenarios

l Data Center interconnection（DCI）

 l Metro Network Application

 l High Capacity and Long Haul Solution

 l Enterprise Line

 100G OTN Muxponder Technical Specifications

Operation Mode

 Muxponder Mode

10x 8/10G client and 1x 100G CFP line side

10G Ports

 Number of port

10

Interface

10xSFP+

Transceiver

The wavelength, Protocol, Distance depend on SFP+

 Protocol

Ethernet 10GbE-LAN/WAN SDH/SONET STM64/OC192

Storage 8G/10G FC G.709 OTN OTU2, OTU2e

100G Ports

 Number of port

1

Interface

CFP

Transceiver

DWDM CFP or Coherent CFP, Tunable wavelength

Protocol

100GbE

100G OTN OTU4

FEC Feature(Optional)

  FEC function

10G FEC: RSFEC(G.709 FEC), I.4, I.7

100G FEC: RSFEC(G.709 FEC)

100G Coherent CFP: SD-FEC

FEC gain(dB)

10.8 Max with Coherent CFP

Performance Monitoring

 Optical module

TX/RX power level,  wavelength, temperature

  Ports

OTU Section OTU Far Section ODU Path

ODU Far Path OTN FEC Correct error

OTN FEC uncorrected error

Diagnostic test

 Loopback

Facility loopback: local loopback, remote loopback

PRBS test

Supports

 Protection

 Line Protection

Work with OTNS8600 OLP additional

Management

 OSC out of band

2xOSCs, 1000BaseFx SFP

Ethernet port

1x10/100/1000Base-T, RJ45

Local craft

1xRS232, USB

Management protocol

SNMPv2, CLI(Telnet/SSH), web-based GUI

Environmental

 Operating Temperature

-5 to 50℃

Operating Humidity

5 to 95% (non-condensing)

Storage Temperature

-20 to +85℃

Mechanics

 Card type

Pluggable

Platform

OTNS8600, 1-slot 2RU 19" chassis with pluggable fan card

Dimensions (H x W x D mm)

88 x 437 x 230

Power Supply

 Card type

pluggable power supply

Power feed

Dual Redundant -48V DC

Power Consumption

240W MAX

全球首個600G可變速率光纖網路誕生

為了加快大數據及智能城市的發展，Microchip發表全球首個600G光纖傳輸網路。為支援超連結(hyper-connected)架構，光纖網路正在從100G過渡到可擴展至600G的可變速率光纖傳輸網路，並催生了對可變速率光纖傳輸設備及軟體的需求。Microchip Technology Inc. 全資子公司Microsemi Corporation與Acacia Communications, Inc. 透過Microchip的 DIGI-G5光纖傳輸網路(OTN)處理器和Acacia的 AC1200 相干模組之間的互通性，為這一重大轉型提供支援。雙方的合作旨在透過一個成熟的生態系統，打造業界第一個可變速率系統架構，支援市場轉型到採用新的Flexible Ethernet (FlexE)和OTUCn協議打造的200G、400G、600G和可變速率OTN網路。

透過協助市場從100G網路過渡到靈活的傳輸系統架構，服務提供者可以採用OIF的FlexE協定，以更快的速度、更低的成本部署更高頻寬的乙太網連接。FlexE旨在將傳統乙太網鏈路聚合（LAG）的頻寬效率提高30%，並減少限制。透過將其與OTUCn和可變分數密集波長分波多工系統（DWDM）相結合，它讓服務提供者能夠將OTN網路容量最多提高70%。

作為支援FlexE和OTUCn協定的第一款OTN處理器，Microchip的DIGI-G5可以提供打造新型TB級介面卡所需的晶片和軟體，並提供資料包光纖傳輸平臺所需的可變速率光纖介面。捷運和數據中心互聯網路需要100G以上的網速，而且可以透過調節網速最大化地利用頻寬，透過結合DIGI-G5 和AC1200，下一代架構將有助於滿足市場對上述網路日益增長的需求。

Microchip的通訊事業部副總裁Babak Samimi表示：「DIGI-G5讓我們的光纖傳輸系統合作夥伴能夠提供TB級的OTN交換介面卡，在將單埠能耗降低50%的同時，還能實現高達600G的可變速率埠和協定。透過展示DIGI-G5和Acacia的AC1200 相干模組之間的互通性，雙方充分表明該生態系統已準備好協助市場向這些新的協定、速率和TB級架構轉型。」

DIGI-G5將用戶端流量轉化為OTN，而由Acacia的Pico數位訊號處理器（DSP）ASIC支持的1.2T AC1200將透過兩個具備靈活傳輸3D成型功能的600G可變DWDM波長，實現OTN連接。這些功能包括分數正交振幅調變（QAM）和自我調整傳輸速率優化，可以提高傳輸範圍和能力，以節能高效的方式消除大量網路配置的理論限制。

Acacia Communications技術長Benny Mikkelsen表示：「除了大容量和高強度，我們的AC1200模組還帶來多個重要功能，能讓網路營運商優化傳輸容量、範圍和頻譜效率，實現高達600G的靈活傳輸解決方案。」

科技資訊由熱新聞提供 原文連結: 全球首個600G可變速率光纖網路誕生 更多相關內容

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HUAWEI OptiX OSN 9800 OTN Platform including OSN 9800 UPS,OSN 9800 M24,OSN 9800 U16,OSN 9800 U32,OSN 9800 U64,OSN 9800 U32E.

OptiX OSN 9800 M24is designed to satisfy the requirements of metro-layer OTN networking and integrated service bearers. Based on 100G, the OSN 9800 M24 supports evolution to 400G/1T and provides over 2.4T/4T of cross-connect capacity. It can be used for networking with OSN…

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Coherent Optical Equipment Market Qualitative Analysis Reveals explosive growth by 2026

Data Bridge Market Research has provides the Qualitative and informative knowledge by adding titled “Coherent Optical Equipment Market by By Technology (100G, 200G, 400G+, 400G ZR), Equipment (Wavelength-Division Multiplexer, Modules/Chips, Test and Measurement Equipment, Optical Amplifiers, Optical Switches, Others), Application (Networking, Data Center, OEMs), End Use (Service Provider, Public Sector, Industries), Geography (North America, Europe, Asia-Pacific, Europe, South America, Middle East and Africa)  Analysis and Forecast, 2019 – 2026”. In this report, Researchers have analyzed Strength, Weakness, opportunities and threats in the market and provides the unbiased picture of the market with the Qualitative and informative knowledge. The Coherent Optical Equipment Market report additionally states import/trade utilization, free market activity figures, cost, value, volume and gross edges.

Few of the leading organizations’ names are listed here- Ciena Corporation, Huawei Technologies Co., Ltd., Cisco Systems, Inc., Nokia Corporation, Infinera Corporation, FUJITSU OPTICAL COMPONENTS LIMITED, ECI TELECOM, ZTE Corporation, ADVA Optical Networking, Telefonaktiebolaget LM Ericsson

Global coherent optical equipment market is growing at a substantial CAGR of 9.4% during the forecast period of 2019 to 2026 due to demand for high quality audio & visuals.

Grab Sample Report + All Related Tables & Charts of Global Coherent Optical Equipment Market Study Now @

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Market Definition: Global Coherent Optical Equipment Market

Coherent optical equipment is the optical cable equipment that promotes 100G+ velocity for information transmission efficiently. Substantial increases in bandwidth demands to minimize latency issues and provide smooth transmission of information / data is expected to drive consistent market trends in the expected timeline for optical equipment. Coherent Optical Transmission uses amplitude and light phase modulation along with transmission across two polarizations to allow more data to be transmitted via fiber optic cable

The Global Coherent Optical Equipment Market is segmented by

Global Coherent Optical Equipment Market By Technology (100G, 200G, 400G+, 400G ZR)

Equipment (Wavelength-Division Multiplexer, Modules/Chips, Test and Measurement Equipment, Optical Amplifiers, Optical Switches, Others)

Application (Networking, Data Center, OEMs)

End Use (Service Provider, Public Sector, Industries)

Regional analysis for Coherent Optical Equipment Market includes:

North America

Latin America

Europe

Asia Pacific & Japan

The Middle East and Africa

Major companies covered in the report

Some of the major players operating global coherent optical equipment market are Ciena Corporation, Huawei Technologies Co., Ltd., Cisco Systems, Inc., Nokia Corporation, Infinera Corporation, FUJITSU OPTICAL COMPONENTS LIMITED, ECI TELECOM, ZTE Corporation, ADVA Optical Networking, Telefonaktiebolaget LM Ericsson, NEC Corporation, Carl Zeiss Meditec, Vision Engineering Ltd, S-T Industries Inc., Third Dimension, Zygo Corporation among others.

This Report Consists of:

No of pages: 350

No of Figures: 60

No of Tables: 220

Recent Developments in the Market:

In January 2017, Infinera Corporation launched the XTS-3300 and XTS-3600 subsea network meshponders and upgraded its DTN-X XTC series with a fresh 1.2 Tb / s subsea line card to 12 terabits per second (Tb / s) of non-blocking optical transport network (OTN). This will help the company increase its innovation and increase the sales by generating great revenue

In 2017, CableLabs launched an Innovation Project for Full Duplex Coherent Optics the new optic has a capability of more than 100 times each existing cable access network fiber will significantly increase the value of the currently-deployed fiber infrastructure in the company

Why to purchase this report?

Following are the reasons to consider this Coherent Optical Equipment Market report:

This ultimate guide will help you stay ahead in market as it furnishes you with the profiles of the key market players and their working methodologies and their decision making capabilities.

The report analyzes various factors which act as drivers and restraints to development the overall Coherent Optical Equipment Market.

This report not only analyzes present market condition but it likewise estimates how the Coherent Optical Equipment Market is going to perform for estimated time period of 2019-2026.

It enables you to adopt smart methodologies and form better decisions by giving a clear idea about customer’s requirement and preferences regarding the product in particular region.

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Optical Encryption Market by Encryption Layer (OTN or Layer1, MACsec or Layer 2, and IPsec or Layer 3), Data Rate (10G, 40G, 100G), Vertical (BFSI, Government, Healthcare, Data Centre & Cloud, Energy & Utilities), and Geography