Industrial Ethernet Physical Layer Transceivers (PHYs) Market

1G Ethernet PHY IP Cores Solution for Gigabit Network Applications

T2M-IP, the global independent semiconductor IP Cores provider & Technology experts, is pleased to announce its best-selling GbE (10/100/1000 Base-T) PHY IP Core’s availability for immediate licensing as the final quarter of the Fiscal Year approaches. This popular Networking IP cores has a unique power usage and Size characteristic that helps in its simple integration into any Subsystem.

 The Gigabit Ethernet PHY IP Cores is extracted from production chip is a highly integrated single chip for Giga 10/100/1000 Ethernet applications. It is an IEEE 802.3u/ab compliant single-port Giga Ethernet physical layer transceiver with low power consumption compared to market standards. It supports 10BASE-T, 100BASE-T, and 1000BASE-T operation. The GPHY connects the Media Access Control Layer (MAC) by GMII (Giga Media Independent Interface) or RGMII for an unobstructed network flow.

The digital 1G Ethernet MAC, TSN MAC, and PCS Controller IP Cores can all be licenced together with the GPHY IP Cores thanks to the availability of a dual port MAC interface with GMII and MII. The IP Cores' LED indicators for link mode, status, speed, activity, and collision are supported by IEEE 1500 for SoC testing integration. These features work together to provide an enhanced networking experience.

In addition to the support for both Half Duplex and Full Duplex modes, the GPHY has a leading-edge jitter tolerance and a Built-in-self-test including pattern generator/checkers. It also possesses built in error counters and self-monitoring techniques, including signal quality monitoring. Sticking to the trend of catering to a wide range of possible applications this IP cores also supports BroadR-Reach™ for use in automotive connectivity applications.

1G Ethernet PHY IP Cores is licensed as a WhiteBox solution, with worldwide use which is an unlimited and perpetual licensing model. The GPHY is licensed with full modification rights (spec change, bug corrections, process node porting) granted to the user. The Gigabit Ethernet PHY IP Cores has also been used in semiconductor industry’s Data Servers, Automotive, Multimedia devices, Routers and other Consumer Electronics….

In addition to 1G Ethernet PHY IP Cores, T2M ‘s broad silicon Interface IP Core Portfolio includes USB, PCIe, Serial ATA, HDMI, Display Port, MIPI, DDR, programmable SerDes, SD/eMMCs and many more Controllers with matching PHYs, available in major Fabs in process geometries as small as 6nm. They can also be ported to other foundries and leading-edge processes nodes on request..

About T2M: T2MIP is the global independent semiconductor technology experts, supplying complex semiconductor IP Cores, Software, KGD and disruptive technologies enabling accelerated development of your Wearables, IOT, Communications, Storage, Servers, Networking, TV, STB and Satellite SoCs. For more information, please visit: www.t-2-m.com

Availability: These Semiconductor Interface IP Cores are available for immediate licensing either stand alone or with pre-integrated Controllers and PHYs. For more information on licensing options and pricing please drop a request / MailTo

Ethernet Controller Market is Estimated To Expand At a Healthy CAGR in The Upcoming Forecast 2025

The ethernet controller market is expected to register a CAGR of 6.1% during the forecast period 2020-2025. As Ethernet controller controls Ethernet communications, the trend towards industrial Ethernet physical layer (PHY) products to help manufacturers addressing key Industry 4.0 and smart factory communication challenges surrounding data integration, synchronization, edge connectivity, and system interoperability is highly being adopted. The ADIN1300, for example, is a low-power, single-port Ethernet transceiver designed for time-critical industrial Ethernet applications up to Gigabit speeds and designed to operate reliably in harsh industrial conditions over extended ambient temperature ranges. It is the latest technology developed for the company’s ADI Chronous portfolio of industrial Ethernet solutions. - Adoption of EtherCat for the real-time network for machine control drives the market. EtherCAT uses the implementation of on-board Ethernet controller integrated via Direct Memory Access (DMA), so no CPU capacity is required for the data transfer between the master device and the network providing higher orders of magnitude faster than Profibus, DeviceNet, and ModbusTCP. Automation equipment manufacturers can use EtherCAT on their own device implementations to improve performance and flexibility, while end-users and automation system designers can implement their own EtherCAT-compliant devices. Further, EtherCAT is part of several IEC Standards (61158, 61784, 61800), ISO 15745, and is also a SEMI standard (E54.20).

Click Here to Download Sample Report >> https://www.sdki.jp/sample-request-86056 - In April 2020, Renesas Electronics Corporation announced the RX72N Group and RX66N Group of 32-bit microcontrollers (MCUs), new additions to the RX Family that combines equipment control and networking function on a single chip with EtherCAT support.

- The adoption of USB Ethernet controllers drives the market. There are various protocols for Ethernet-style networking over USB. The main function of these protocols is to allow the application-independent exchange of data with USB devices, instead of specialized protocols such as video or MTP. Even though USB is not a physical Ethernet, the networking stacks of all major operating systems are set up to transport IEEE 802.3 frames.

- For instance, implementing the KL5KUSB121 10/100 Base-T USB-Ethernet controller provides highly integrated 16-bit RISC CPU, mask ROM, and RAM buffer coupled with serial, external memory, and SPORT interfaces. It easily converts USB to Ethernet. The chip's internal processor enables a remote network device interface specification that provides compatibility with next-generation operating systems and faster data transfers and is well suited for LAN, Home Area Network, cable modem, set-top boxes, or mobile networking applications.

- The impact of COVID-19 has provided the restraints to market growth. There is nearly an 80% chance for significant contraction in worldwide semiconductor revenues in 2020, which also affects the market of ethernet controllers due to the massive slowdown of the supply chain. A player such as Arista, Cisco, Juniper, and many others in the 400GbE ecosystem planned to demonstrate interoperability and the growing volume of 400GbE wares at OFC (Optical Fiber Communication Conference and Exhibition) 2020 and the major networking vendors working on 400GbE were reported some degree of 400G implementation, but the players have decided to manufacture in the first half of 2021, and currently, the production has been stopped. - Further, as the epidemic has caused the manufacturing industry to slow down, the requirement of EtherCAT in the industry is most vital as it provides real-time, deterministic, high performance, and open industrial Ethernet network protocol and can ensure the data transmission certainty and real-time. In April 2020, ASIX Electronics Corporation announced to supply EtherCAT Slave Controller SoC in China and other parts of the world, which caters to the significant assistance in the market growth. But overall, the growth is restrained due to negligible demand from all the sectors. Key Market Trends Gigabit Ethernet to Witness Growth in Data Centers - Data-intensive applications such as big data and cloud computing continue to grow at an accelerating rate. Multiple terabits of data travel to and from the data center each second. Moving such massive data around the data center requires a robust infrastructure that is capable of handling high bandwidth data delivery having high IP traffic to and from storage endpoints, servers, top-of-rack (TOR) switches, and core switches. This penetrates the demand of an ethernet controller, which connects devices using media access control (MAC) addresses. - Players such as Marvell Ethernet Network Adapters and Controllers are purpose-built to accelerate and simplify data center, PC and workstation networking. Marvell Ethernet controllers deliver Ethernet connectivity speeds ranging from NBASE-T for Workstations to data center-class 10/25/50/100GbE for high-volume software-defined datacenters. - Further, rising power consumption and costs related to continuous growth in data are bringing data centers to face the challenges of delivering greater storage bandwidth and capacity. To address such issues, in April 2020, Marvell’s MRVL QLogic Fibre Channel and FastLinQ Ethernet adapter solutions will now enable NVMe over Fabrics (NVMe-oF) technology in VMwarevSphere 7.0, displaying its continued efforts to strengthen its end-to-end Ethernet storage and bandwidth capabilities. - Further, with an increasing demand for networking speed and throughput performance within the data center and high-performance computing clusters, in April 2020, the newly rebranded Ethernet Technology Consortium has announced a new 800 Gigabit Ethernet technology for data center replacing the 400 Gigabit Ethernet. The 800 B base-R specification (or 800 GbE) will need new definitions for media access control (MAC) and physical coding sublayer (PCS). This further benefits hyperscale datacenter networks that span a large number of nodes and require multiple hops. - Furthermore, in April 2020, Tyan has officially announced its support for the new chips on selecting models of their Transport HX barebones servers, which are designed for high-performance computing and server data-driven workflows. It includes Transport HX TN83-B8251, TS75A-B8252, and the TS75-B8252, where on the motherboard, there is an Intel X550-AT2 dual 10 G Ethernet controller, with a dedicated Realtek IPMI Ethernet port, and an Aspeed AST2500 BMC. Each model has offered its own benefits for the server, data center, and high-frequency trading systems.

- Moreover, as the demand for public cloud services continues to grow, hyper-scale data centers and cloud providers increasingly rely on multicore SmartNIC solutions to offload infrastructure services and workloads to maximize server utilization. In March 2020, Broadcom Inc. announced that its Stingray adapter, the industry’s first 100G SmartNIC (integrated NetXtreme Ethernet Controller), is powering Baidu Cloud with unprecedented levels of performance. The Stingray adapter’s exceptional levels of integration, includes eight ARM A72 CPU cores running at 3GHz, 300G of memory bandwidth.

Click Here to Download Sample Report >> https://www.sdki.jp/sample-request-86056 North America Accounts for Significant Share - North America accounts for a significant share. With the increase in the development of technology along with the adoption of a high rate of consumer electronics such as gaming consoles, etc., the demand for the ethernet controller is growing in this region.

- For instance, in April 2020, Killer announced the Killer E3100 Ethernet controller is improving the internet performance by prioritizing gaming and rescuing up CPU power and PC memory. It reaches speeds up to 2.5Gbps and can combine with Killer Wi-Fi products to reach up to 4.9 Gbps of theoretical throughput. The Killer 3100 is available in systems from Acer and MSI, including the newly announced MSI Creator 17 and MSI GE66 Raider.

- Further, as the automotive industry increasingly adopts Ethernet in-vehicle networks for mainstream models, the number of related ports is expected to grow at a 62% annualized growth trajectory, from 53 million in 2018 to 367 million by 2022, according to Marvell Technology Group. Moreover, in September 2019, Marvell Technology Group completed the acquisition of Aquantia Corporation to expand the market in automotive solutions. - The acquisition of Aquantia complements Marvell’s portfolio of copper and optical, physical layer product offerings, and extends its position in the Multi-Gig 2.5G/5G/10G Ethernet segments. In particular, Aquantia’s innovative Multi-gig automotive PHYs, coupled with Marvell’s gigabit PHY and secure switch products, creates a broad range of high-speed in-car networking solutions. - Further, in November 2019, Astronics Ballard announced to embed an open architecture with a 64-bit processing foundation and Ethernet backbone across its next generation of NG avionics input/output (I/O) computers. Inside the next generation, boxes are simple converters capable of supporting Ethernet, MIL-STD-1553 and ARINC 429 among other data bus protocols, and the processing is capable of enabling advanced distributed control and mission computing on fighter jets, drones, and helicopters. - To support the instance, in January 2019, U.S. Air Force, Army, and Navy officials signed a memorandum agreeing that future acquisitions of new aircraft technologies will focus on using the Modular Open Systems Approach (MOSA). In addition to MOSA, the NG computers also meet the design requirements for DoD’s Open Mission Systems (OMS) standard. This enhances the demand for the market in this sector.

Competitive Landscape The ethernet controller market is fragmented in nature due to high competition. Despite the fragmentation, the market is largely tied by the regulatory requirements for establishment and operation. Further, with increasing innovation, acquisitions, and partnerships, the rivalry in the market tends to be increasing in the future. Key players are Intel Corporation and Broadcom Inc. Recent developments in the market are - - March 2020 - Ethernity Networks introduced its ENET-D, an add-on Ethernet Controller technology to its ACE-NIC100 SmartNIC that efficiently processes millions of data flows and offers performance acceleration for networking and security appliances. ENET-D is an Ethernet adapter and DMA (direct memory access) engine that eliminates the need for proprietary hardware on a network interface card. By fitting into various FPGAs and enabling customers to further avoid ASIC-based components, ENET-D advances complete disaggregation at the edge of the network. The dynamic nature of business environment in the current global economy is raising the need amongst business professionals to update themselves with current situations in the market. To cater such needs, Shibuya Data Count provides market research reports to various business professionals across different industry verticals, such as healthcare & pharmaceutical, IT & telecom, chemicals and advanced materials, consumer goods & food, energy & power, manufacturing & construction, industrial automation & equipment and agriculture & allied activities amongst others.

For more information, please contact:

Hina Miyazu

Shibuya Data Count Email: [email protected] Tel: + 81 3 45720790

100G Transceivers and Cables Solution

FS.COM  provides a full range of copper cables and optical transceivers for 100GbE, compliant to the IEEE standards. FS.COMoffers QSFP28 to QSFP28 copper cables and active optical cables, to enable short reach options, as well as a wide range of optical transceivers in CFP, CFP2, CFP4 and QSFP28 form factors for various fiber types and reach requirements.

IEEE 100G Standard Overview

100 Gigabit Ethernet (100GbE) is the computer networking technology for transmitting Ethernet frames at rates of 100 gigabits per second (100 Gbit/s). The technology was first defined by the IEEE 802.3ba-2010 standard. The 100 Gigabit Ethernet standards encompass a number of different Ethernet physical layer (PHY) specifications. A networking device may support different PHY types by means of transceiver modules. Optical modules are not standardized by any official standards body but are in multi-source agreements (MSAs). The mainly used 100G standards are displayed in the table below:

FS.COM 100G Transceivers and Cables Meet the 100G Standards

FS.COM provides 100G QSFP28 transceivers, with SR4 and LR4 versions, which are ideal choice for today’s high-density data center 100G interconnection. The SR4 version supports up to 70 m on OM3 MMF and up to 100 m on OM4 MMF. The LR4 version supports up to 10 km on SMF. Besides, FS.COM also provides 100G CFP/CFP2/CFP4 transceivers, all with LR4 versions. They are designed for use in 100G Ethernet links over single-mode fiber, supporting supports a link length of 10 km. From CFP to CFP4, the size becomes more and more compact to meet the high-density demands. 100G QSFP28 to QSFP28 twinax copper cables and active optical cables are also offered in FS.COM. The table below summarizes the FS.COM 100G transceivers and cables and the associated industry standards:

Cable Types Needed for 100G Transceivers

At present, there are three cables types used for 100G transceivers. 24 fiber MTP cable for 100GBASE-SR10 transceivers, 12 fiber MTP cable for 100GBASE-SR4 transceivers and LC cable for 100GBASE-CWDM4, 100GBASE-LR4 and 100GBASE-ER4 transceivers. Below table details the connector type of each FS.COM 100G transceiver and the cable type to be used:

100G Direct Cabling Solutions

For 100G short direct cabling, we can use 100GBASE-SR4 QSFP28 transceivers or 100G QSFP28 to QSFP28 cables. Among, 100G QSFP28 to QSFP28 direct attach copper cable can support up to 5m and 100G QSFP28 to QSFP28 active optical cable can support up to 10m. 100GBASE-SR4 QSFP28 transceivers can support up to 70 m and 100 m respectively on OM3 and OM4 12 fiber multimode MTP cable.

For 100G long direct cabling, we can use 100GBASE-LR4 transceivers. 100GBASE-LR4 QSFP28, CFP, CFP2 and CFP4 can all support up to 10km on single-mode LC patch cables. You can choose the right 100GBASE-LR4 transceivers according to your switch port type.

100G Breakout Cabling Solutions

Just like the 40GBASE-SR QSFP+ transceiver can be connected to 4 10GBASE-SR SFP+ transceivers, the 100GBASE-SR4 QSFP28 transceiver can also be connected to 4 25GBASE-SR SFP28 transceivers. Like the 40G to 10G application, we also just need a 12 fiber MTP to 4 LC breakout cable.

Besides the transceivers, there also exists 100G QSFP28 to 4 SFP28 direct attach copper cables designed for 100G breakout cabling applications. This cable provides connectivity between system units with QSFP28 port on one side and up to four different SFP28 ports on the other. The cable connects data signals from each of the 4 copper pairs on the QSFP28 end to the single pair of each of the SFP28 ends, which enables higher port bandwidth, density and configurability at a low cost and reduced power requirement in the data centers.

Data center 100G optics market is accelerating. 100G transceivers and 100G direct attach cable assemblies are becoming more and more widely deployed in data center. FS.COM 100G transceivers solution include 100GBASE-SR4 QSFP28 and 100GBASE-LR4 QSFP28, CFP, CFP2 and CFP4. FS.COM 100G direct attach cables solution include 100G QSFP28 to QSFP28 copper cable and active cable and 100G QSFP28 to 4 SFP28 copper cable. Besides, single-mode or multimode MTP and LC patch cables for 100G transceivers are also provided in FS.COM. All with competitive prices, superior quality and high compatibility. For more information, please contact us over [email protected].

Source: http://www.fs.com/100g-transceivers-and-cables-solution-aid-497.html

Industrial Ethernet Physical Layer Transceivers (PHYs) Market Type, Share, Size, Analysis, Trends, Demand and Outlook 2032

The Industrial Ethernet Physical Layer Transceivers (PHYs) Market is a segment of the larger Ethernet transceiver market that focuses on the physical layer components used in industrial Ethernet applications. The market type is a competitive one with multiple vendors providing PHY solutions for different industrial Ethernet protocols such as EtherCAT, Profinet, and Ethernet/IP.

The demand for Industrial Ethernet PHYs is expected to increase as more industries adopt industrial Ethernet for automation, control, and communication applications. This includes industries such as automotive, aerospace, manufacturing, and oil and gas. With the increasing use of IIoT, there is a growing need for reliable and high-speed communication networks, which is driving the demand for Industrial Ethernet PHYs.

The Industrial Ethernet Physical Layer Transceivers (PHYs) Market report is a perfect foundation for people looking out for a comprehensive study and analysis of the market. This report contains a diverse study and information that will help users to understand niche and concentrate of key market channels in the regional and global Industrial Ethernet Physical Layer Transceivers (PHYs) market. The report offers details about market including size, share, current and upcoming market trends, supply chain information, trading concerns, competitive analysis, and prices as well as vendor information for the purpose of understanding competition.

The Industrial Ethernet Physical Layer Transceivers (PHYs) market is both regionally and globally, and this report provides a variety of research and data that will aid readers in understanding niche markets and concentrating on important market channels. For the goal of understanding competition, the research provides details about the market, such as market size, share, present and future trends, supply chain information, trading issues, competitive analysis, prices, and vendor information.

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Market Segmentations: Global Industrial Ethernet Physical Layer Transceivers (PHYs) Market: By Company • Broadcom • Marvell • TI • NXP • Microchip Technology • Analog Devices • Motorcomm • JLSemi • KG Micro • Maxio Global Industrial Ethernet Physical Layer Transceivers (PHYs) Market: By Type • 10/100 Mbps Ethernet PHY Chips • 1000 Mbps Ethernet PHY Chips • Other Global Industrial Ethernet Physical Layer Transceivers (PHYs) Market: By Application • Automotive • HD TV • Game Console • Printer • Other Global Industrial Ethernet Physical Layer Transceivers (PHYs) Market: Regional Analysis All the regional segmentation has been studied based on recent and future trends, and the market is forecasted throughout the prediction period. The countries covered in the regional analysis of the Global Industrial Ethernet Physical Layer Transceivers (PHYs) market report are U.S., Canada, and Mexico in North America, Germany, France, U.K., Russia, Italy, Spain, Turkey, Netherlands, Switzerland, Belgium, and Rest of Europe in Europe, Singapore, Malaysia, Australia, Thailand, Indonesia, Philippines, China, Japan, India, South Korea, Rest of Asia-Pacific (APAC) in the Asia-Pacific (APAC), Saudi Arabia, U.A.E, South Africa, Egypt, Israel, Rest of Middle East and Africa (MEA) as a part of Middle East and Africa (MEA), and Argentina, Brazil, and Rest of South America as part of South America.

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Objectives of Industrial Ethernet Physical Layer Transceivers (PHYs) Market Study: The objectives of Industrial Ethernet Physical Layer Transceivers (PHYs) market research report may vary depending on the specific needs and goals of the business or organization commissioning the report. However, some common objectives of market research reports include:

Understanding the market size and potential: One of the primary objectives of Industrial Ethernet Physical Layer Transceivers (PHYs) market research is to understand the size and potential of a particular market. This includes analyzing market trends and dynamics, identifying key players and competitors, and assessing the demand for products or services.

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Overall, the objectives of Industrial Ethernet Physical Layer Transceivers (PHYs) market research report are to provide businesses and organizations with valuable insights and data-driven recommendations that can help them make informed business decisions and stay competitive in their industry.

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