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Co-Packaged Optics Market Future Trends Shaping Data Centers and High-Speed Networking Solutions
The co-packaged optics market is undergoing transformative changes, driven by rising data consumption, the growth of AI and machine learning applications, and the increasing demand for faster and more energy-efficient data centers. Co-packaged optics (CPO), which integrate optical components with switches or processors on a single package, offer promising solutions for overcoming the limitations of traditional pluggable optics in high-speed networking environments.
One of the most defining future trends in the co-packaged optics market is the need for higher bandwidth. Traditional interconnect methods are beginning to show limitations as data rates exceed 400 Gbps and move towards 800 Gbps and beyond. Co-packaged optics are being adopted by hyperscalers and cloud service providers due to their ability to handle such massive data throughputs with reduced power consumption and improved thermal management. These capabilities are essential in meeting the performance requirements of AI and large-scale machine learning workloads, where latency and efficiency are critical.
Energy efficiency is another core trend shaping the market's future. Data centers worldwide are grappling with power and cooling challenges, especially as performance demands soar. Co-packaged optics reduce the electrical-to-optical conversion distances, resulting in lower power usage and heat generation. This shift is aligned with global sustainability goals, encouraging major players to adopt more energy-conscious technologies without compromising on speed or scalability.
Integration with next-generation switch architectures is also becoming a central theme in the co-packaged optics market. As chip designers push toward 51.2 Tbps and even 102.4 Tbps switch platforms, conventional pluggable optics struggle to keep pace due to density and power limitations. CPO enables tighter integration of optics and electronics, optimizing the physical layout for better signal integrity and reduced footprint. This compatibility is opening new doors for designing modular and scalable data center networks capable of evolving alongside technological advancements.
Another emerging trend is the adoption of silicon photonics in co-packaged optics solutions. Silicon photonics technology offers compact, cost-effective, and high-bandwidth optical interconnects. As this technology matures, it's enabling broader deployment of CPO across different tiers of data center infrastructure. The synergy between silicon photonics and co-packaged optics allows for standardized platforms, reducing development complexity and accelerating time-to-market for new solutions.
The co-packaged optics ecosystem is also expanding, with a growing number of collaborations and consortia forming among chip manufacturers, optical component vendors, and system integrators. Initiatives like the Optical Internetworking Forum (OIF) and the Consortium for On-Board Optics (COBO) are playing vital roles in defining open standards and interoperability guidelines. These efforts ensure that CPO solutions can be deployed across various vendor ecosystems, enhancing their appeal to data center operators seeking long-term investment security.
As the market progresses, manufacturing challenges are being addressed through innovations in packaging techniques and materials. Co-packaging involves complex thermal management and alignment requirements. However, advancements in 3D packaging, micro-lens arrays, and automated alignment systems are making it feasible to produce reliable and scalable CPO products. These innovations are crucial for lowering costs and improving the accessibility of co-packaged optics for medium and small-scale deployments.
Another important future trend is the convergence of AI workloads and networking infrastructure. AI and machine learning require high-speed, low-latency interconnects between computing nodes. Co-packaged optics offer the bandwidth and proximity necessary to support such workloads efficiently. This synergy is likely to drive deeper integration of CPO in AI-centric data centers and edge computing platforms, enabling faster model training and data analytics.
Looking ahead, the global expansion of 5G and edge computing will further push the need for distributed, high-speed optical connections. Co-packaged optics will not remain confined to large hyperscale data centers; they are expected to find roles in edge data hubs and 5G base stations where compact size, speed, and energy efficiency are equally vital.
In conclusion, the co-packaged optics market is on the cusp of major transformation. With trends such as increasing bandwidth needs, energy efficiency, tighter switch integration, adoption of silicon photonics, and growing ecosystem collaboration, the technology is becoming an integral part of next-generation network infrastructure. These shifts signal a robust future for CPO, where its potential to redefine data connectivity, performance, and sustainability is only beginning to be realized.
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How Siemens Siprotec 5 6MD86 Bay Controller Protection Relay Can Help Increase Your Grids Productivity
In the dynamic landscape of power distribution, ensuring the smooth and efficient operation of electrical grids is of utmost importance. To achieve this, grid operators are constantly seeking innovative solutions that can boost productivity while maintaining a high level of protection for critical assets. This article explores how the Siemens Siprotec 5 6MD86 Bay Controller Protection Relay can play a pivotal role in enhancing grid productivity. By seamlessly integrating advanced protection and control functionalities, this cutting-edge relay offers unparalleled reliability and performance, empowering grid operators to optimize their network's efficiency and ultimately contribute to a more sustainable and reliable power supply.
A Brief Overview Of Siemens Siprotec 5 6MD86 Bay Controller Protection Relay
The Siemens Siprotec 5 6MD86 Bay Controller is a protection relay device designed to provide comprehensive protection and control functionalities for electrical systems at various voltage levels, ranging from distribution to transmission. The Siemens Siprotec 6MD86 Bay Controller serves as a control and automation device with optional protection features, suitable for various voltage levels from distribution to transmission. As part of the SIPROTEC 5 family, it offers a wide range of protection functions from the SIPROTEC library, sharing identical parameters with protection devices. Its adaptable hardware design allows precise alignment with different process data requirements.
The 6MD86 Bay Controller is equipped with flexible hardware, allowing it to adapt precisely to different process data requirements, making it a versatile and effective solution for ensuring the stability and security of critical power systems. Its advanced automation capabilities enable seamless integration into control systems, enhancing the overall efficiency and reliability of electrical networks.
Functions of Siemens 6MD86 Bay Controller Protection Relay
Integrated bay controller with versatile protection function from medium to extra-high voltage
Control of switching devices
Synchrocheck, switchgear interlocking protection and switch related protection functions, such as circuit-breaker failure protection and automatic reclosing
Integrated electrical Ethernet RJ45 for DIGSI 5 and IEC 61850 (reporting and GOOSE)
Up to 4 pluggable communication modules usable for different and redundant protocols (IEC 61850, IEC 60870-5-103, IEC 60870-5-104, DNP3 serial and TCP, Modbus TCP, PROFINET IO)
Secure serial protection data communication, also over great distances and all available physical media (fibre-optic cable, 2-wire connections and Communication Networks)
Capturing operational measured variables and protection function measured values to evaluate the plant state, support commissioning, and analyze faults
Phasor Measurement Unit (PMU) synchrophasor measured values and IEEE C37.118 protocol integrated
Powerful fault recording (buffer for a max. record time of 80 s at 8 kHz or 320 s at 2 kHz)
Auxiliary functions for simple tests and commissioning
Flexibly adjustable I/O quantity structure within the scope of the SIPROTEC 5 modular system
How The Relay Works To Monitor And Protect Grid Assets
Siemens Siprotec 5 6MD86 Bay Controller Protection Relay is a sophisticated device designed to monitor and protect various assets within an electrical grid. Its primary function is to detect abnormal conditions or faults that may occur in the grid and take prompt actions to mitigate potential risks, ensuring the safety and stability of the entire power distribution system. Here's how the relay works to monitor and protect grid assets:
Fault Detection: The relay continuously monitors the grid for any abnormal conditions, such as overcurrent, undercurrent, overvoltage, Undervoltage, frequency deviations, etc. When it detects a fault or an irregularity beyond the predefined threshold, it triggers an alarm to notify operators of the issue.
Data Acquisition: The relay collects real-time data from various sensors and instruments installed throughout the grid. This data includes voltage levels, current flow, power factor, and other essential parameters. The relay processes this data to analyze the grid's operating condition.
Event Logging: The relay maintains a detailed log of events and disturbances that occur within the grid. This log provides valuable information for post-event analysis and helps engineers to understand the root cause of disruptions and take preventive measures.
Fast Tripping Mechanism: In the event of a fault, the relay's primary objective is to isolate the affected section of the grid quickly. It sends a tripping signal to the circuit breaker associated with the faulty segment, allowing it to open within milliseconds. This rapid tripping prevents the fault from spreading and causing cascading failures in the system.
Communication Capabilities: The Siprotec 5 6MD86 is equipped with communication interfaces that enable seamless integration into Supervisory Control and Data Acquisition (SCADA) systems and other grid management platforms. This allows for remote monitoring, control, and diagnostics, enhancing the overall grid management efficiency.
Real-time Condition Monitoring: The relay continuously monitors the health and performance of critical grid assets, such as transformers and circuit breakers. It provides real-time diagnostics and alerts operators of any abnormalities or degradation in equipment performance, enabling predictive maintenance and extending asset lifespan.
In summary, the Siemens Siprotec 5 6MD86 Bay Controller Protection Relay works as an intelligent guardian of the electrical grid, vigilantly monitoring its health, detecting faults, and responding rapidly to protect valuable assets. Its ability to identify and isolate faults swiftly, coupled with advanced communication and diagnostic features, helps power utilities maintain grid stability, enhance productivity, and ensure a reliable power supply to consumers.
Conclusion
In conclusion, the Siemens Siprotec 5 6MD86 Bay Controller Protection Relay stands as a game-changer for power utilities, playing a vital role in enhancing grid productivity and ensuring a reliable and secure power distribution system. By adopting these cutting-edge protection relay technologies, power utilities can pave the way for a smarter, more efficient, and sustainable energy future.
Discover the ultimate offer on the Siemens Siprotec 5 6MD86 Bay Controller Protection Relay from Reliserv Solution, your authorized Supplier and Channel Partner for SIEMENS Numerical Relays, Automation Products, Power Quality Meters & Instruments, MV Switchgear Spares, and PSS SINCAL Software. As the leading Siemens Siprotec 5 Relays supplier and exporter in Mumbai, Maharashtra, we pride ourselves on providing top-notch products and services to various industries and panel builders.
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#siemens#Siprotec5#protection#numerical#relays#electricalsafety#powerprotection#industrialautomation#panelbuilders#powerquality#electricalsolutions#energyefficiency#smartgrid#powerdistribution#electricalengineering
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LCP Connectors Market Significant Demand Foreseen by 2023
Overview:
A recent study conducted by Market Research Future (MRFR) reveals the global LCP connectors market is set to increase at 8.1% CAGR between 2018 and 2023. Relentless technological advancements in industries such as electronics, medical and telecom has helped broaden the application spectrum of LCP connectors.
Demand for small and thin connectors has significantly increased in recent years owing to device miniaturization. This can be linked with the rising preference for LCP connectors. Over the years, several types of LCP connectors have come up, offering a wide range of circuit wiring solutions. Materials that are currently used for making connectors include Polyethyleneimine (PEI), Polybutylene terephthalate (PBT), Crystal Polymer (LCP), Polyphenylene sulfide (PPS), and Nylon 66. LCP is one of most common materials used for making connectors as it has high inertness and durability.
Growth of sectors such as automobile, aerospace and consumer electronics is also providing an impetus to the global LCP connectors market. LCP connectors find tremendous application in modern electronic components. Portability and miniaturization are key area of focus for electronic manufacturers, which is paving the way for LCP connectors. Nonetheless, arrival of superior alternatives is viewed as a major threat to the LCP connectors market.
Get Free Sample Report @ https://www.marketresearchfuture.com/sample_request/7443
Global LCP Connector Market: Competitive Landscape
MRFR’s report includes a detailed analysis on competitive landscape of the market, which covers Wurth Group (Wurth Elektronik), TE Connectivity Ltd., Japan Aviation Electronics Industry, Ltd., Sumitomo Chemical Company, Amphenol Corporation, RTP Company, Molex Inc., Asia International Enterprise (HK) Limited, Axon' Cable, Celanese Corporation, 3M Company, Polyplastics Co. Ltd., Cinch Connectivity Solutions, OMRON Corporation, Solvay SA, HARTING Technology Group, and Hirose Electric Co. Ltd.
Global LCP Connector Market: Segmental Analysis
MRFR’s report also includes an exhaustive segmental analysis of the market based on connector and region. On the basis of connector type, the market has been segmented into heavy duty power connectors, D-shaped connectors, power connectors, fiber optic connectors, USB, DVI, HDMI connectors, solid-state lighting connectors, rectangular connectors, card edge connectors, modular connectors, coaxial connectors, FFC, FPC connectors, blade-type power connectors, circular connectors, pluggable connectors, memory connectors and backplane connectors. The rectangular connectors segment accounts for more than one-third share of the market. The segment is projected to soar at a CAGR of 8.5% from 2018 to 2023. Rectangular connectors are witnessing widespread popularity owing to their high durability. They are use in heavy-duty electronic products. These connectors also have different locking mechanism option such as bayonet/screw/double/single latches. The circular connectors segment holds the second position and is currently valued at over USD 1,300 Mn. The coaxial connectors segment is expected to post the strongest CAGR during the projection period.
Table of Content:
4 Research Methodology
4.1 Research Process 24
4.2 Forecast Model 28
5 Market Dynamics
5.1 Overview 30
5.2 Drivers 30
5.2.1 Increasing Trend Of Miniaturizing Electrical Components 30
5.2.2 Growth Of The Automotive Industry 30
5.3 Opportunity 31
5.3.1 Possible Applications Of LCP Connectors In The Telecom, Electronics, And Medicine 31
5.4 Restraint 31
5.4.1 Disadvantages Over PPA (Polyphthalamide) Connectors 31
5.5 Emerging Trend 31
6 Market Factor Analysis
6.1 Connector Material Benchmarking 34
6.1.1 List Of Vendors Who Sell Modified LCPs To Connector Manufacturers 35
6.1.2 Industry Standards For LCP Suppliers 35
6.1.2.1 Registration, Evaluation, Authorization And Restriction Of Chemicals (REACH) 35
6.1.2.2 Restriction Of Hazardous Substances (RoHS) Directive 35
6.1.2.3 The National Institute Of Standards And Technology (NIST) 35
6.1.2.4 UL 746 Series 36
6.1.2.5 International Electrotechnical Commission (IEC) 36
6.2 Supply Chain Analysis 36
6.2.1 Liquid Crystal Polymers (LCPs) Manufacturers/Suppliers 37
6.2.2 LCP Connector Manufacturers 37
6.2.3 Distribution Channel Partners 37
6.2.4 Applications Areas 37
6.3 Porter’s Five Force Model 38
6.3.1 Threat Of New Entrants 38
6.3.2 Bargaining Power Of Suppliers 39
6.3.3 Threat Of Substitutes 39
6.3.4 Bargaining Power Of Buyers 39
6.3.5 Competitive Rivalry 39
7 Global LCP Connector Market, By Connector Type
7.1 Overview 41
7.1.1 Rectangular Connectors 41
7.1.2 Circular Connectors 42
7.1.3 Card Edge Connectors 42
7.1.4 Backplane Connector 43
7.1.5 Modular Connector 44
7.1.6 Heavy Duty Power Connectors 44
7.1.7 FFC,FPC Connectors 45
7.1.8 D-Shaped Connector 46
7.1.9 Coaxial Connector 46
7.1.10 Power Connectors: 47
7.1.11 Memory Connectors: 48
7.1.12 Fiber Optic Connectors 49
7.1.13 Pluggable Connectors 49
7.1.14 USB, DVI, HDMI Connectors 50
7.1.15 Blade-Type Power Connectors 51
7.1.16 Solid State Lighting Connectors 52
8 Global LCP Connector Market, By Region
8.1 Overview 55
8.2 North America 56
8.2.1 US 59
8.2.2 Canada 61
8.2.3 Mexico 63
8.3 Europe 65
8.3.1 UK 69
8.3.2 Germany 71
8.3.3 France 73
8.3.4 Rest Of Europe 75
8.4 Asia-Pacific 76
8.4.1 China 80
8.4.2 Japan 82
8.4.3 India 84
8.4.4 Rest Of Asia-Pacific 86
8.5 Rest Of The World 88
8.5.1 Middle East & Africa 91
8.5.2 Latin America 93
9 Competitive Landscape
9.1 Competitive Scenario 96
10 Company Profiles
10.1 Amphenol Corporation 99
10.1.1 Company Overviews 99
10.1.2 Financial Overview 99
10.1.3 Products/Services Offered 100
10.1.4 Key Developments 100
10.1.5 SWOT Analysis 101
10.1.6 Key Strategies 101
10.2 Molex Inc. 102
10.2.1 Company Overviews 102
10.2.2 Products/Services Offered 102
10.2.3 Key Developments 102
10.2.4 SWOT Analysis 103
10.2.5 Key Strategies 103
10.3 Wurth Group (Wurth Elektronik) 104
10.3.1 Company Overview 104
10.3.2 Financial Revenue 104
10.3.3 Products/Services/Solutions Offered (Wurth Elektronik) 105
10.3.4 Key Developments (Wurth Elektronik) 105
10.3.5 SWOT Analysis 105
10.3.6 Key Strategies 105
10.4 Axon' Cable 106
10.4.1 Company Overview 106
10.4.2 Products/Solution Offered 106
10.4.3 Key Developments 106
10.4.4 SWOT Analysis 107
10.4.5 Key Strategies 107
10.5 TE Connectivity Ltd 108
10.5.1 Company Overviews 108
10.5.2 Financial Overview 108
10.5.3 Products/Services Offered 109
10.5.4 Key Developments 109
10.5.5 SWOT Analysis 109
10.5.6 Key Strategies 109
10.6 3M Company 110
10.6.1 Company Overviews 110
10.6.2 Financial Overview 110
10.6.3 Products/Services Offered 111
10.6.4 SWOT Analysis 111
10.6.5 Key Strategies 111
10.7 Cinch Connectivity Solutions 112
10.7.1 Company Overviews 112
10.7.2 Products/Services Offered 112
10.7.3 Key Developments 112
10.7.4 SWOT Analysis 113
10.7.5 Key Strategies 113
10.8 OMRON Corporation 114
10.8.1 Company Overview 114
10.8.2 Financial Overview 114
10.8.3 Products/Services Offered 115
10.8.4 SWOT Analysis 115
10.8.5 Key Strategies 115
10.9 Japan Aviation Electronics Industry, Ltd 116
10.9.1 Company Overview 116
10.9.2 Financial Overview 116
10.9.3 Products/Services Offered 117
10.9.4 Key Developments 117
10.9.5 SWOT Analysis 117
10.9.6 Key Strategies 117
10.10 HARTING Technology Group 118
10.10.1 Company Overview 118
10.10.2 Financial Overview 118
10.10.3 Products/Solution Offered 119
10.10.4 Key Developments 119
10.10.5 SWOT Analysis 119
10.10.6 Key Strategies 119
10.11 Hirose Electric Co. Ltd. 120
10.11.1 Company Overview 120
10.11.2 Financial Revenue 120
10.11.3 Products/Services/Solutions Offered 121
10.11.4 Key Developments 121
10.11.5 SWOT Analysis 121
10.11.6 Key Strategies 122
10.12 Solvay SA 123
10.12.1 Company Overview 123
10.12.2 Financial Overview 123
10.12.3 Products Offered 124
10.12.4 Key Developments 124
10.12.5 SWOT Analysis 124
10.12.6 Key Strategies 124
10.13 Polyplastics Co. Ltd 125
10.13.1 Company Overview 125
10.13.2 Financial Overview 125
10.13.3 Products Offered 125
10.13.4 Key Developments 126
10.13.5 SWOT Analysis 126
10.13.6 Key Strategies 126
10.14 Celanese Corporation 127
10.14.1 Company Overview 127
10.14.2 Financial Overview 127
10.14.3 Products Offered 128
10.14.4 Key Developments 128
10.14.5 SWOT Analysis 128
10.14.6 Key Strategies 128
10.15 Asia International Enterprise (HK) Limited 129
10.15.1 Company Overview 129
10.15.2 Financial Overview 129
10.15.3 Products Offered 129
10.15.4 SWOT Analysis 129
10.15.5 Key Strategies 129
10.16 RTP Company 130
10.16.1 Company Overview 130
10.16.2 Financial Overview 130
10.16.3 Products Offered 130
10.16.4 Key Developments 130
10.16.5 SWOT Analysis 130
10.16.6 Key Strategies 130
10.17 Sumitomo Chemical Company 131
10.17.1 Company Overview 131
10.17.2 Financial Overview 131
10.17.3 Products Offered 132
10.17.4 SWOT Analysis 132
Get Complete Report @ https://www.marketresearchfuture.com/reports/lcp-connectors-market-7443
Global LCP Connector Market: Regional Outlook
Key regions covered in the report include Europe, Asia Pacific (APAC), the Middle East, Africa, North America and Latin America. Asia Pacific and North America are expected to remain highly attractive investment destinations for market players operating on a global level. In terms of revenue, APAC currently makes the largest contribution to the global LCP connector market. The Chinese dominance in electronics manufacturing to some extent characterizes the region’s position in the global market. Over the years, several economic reforms have taken place in the country, bringing China under the spotlight. Meanwhile, its neighboring country India has also joined the race in an attempt to expedite it economic growth. This has augured well for the LCP market in APAC. Moreover, a number of prominent electronic manufacturers are based in APAC, which also favors the market’s prospects in the region. North America LCP connector market is projected to witness a restively higher CAGR during the review period. The market is North America is currently valued at over USD 1,300 Mn.
About Us
Market Research Future (MRFR) is an esteemed company with a reputation of serving clients across domains of information technology (IT), healthcare, and chemicals. Our analysts undertake painstaking primary and secondary research to provide a seamless report with a 360 degree perspective. Data is compared against reputed organiOverview:
A recent study conducted by Market Research Future (MRFR) reveals the global LCP connectors market is set to increase at 8.1% CAGR between 2018 and 2023. Relentless technological advancements in industries such as electronics, medical and telecom has helped broaden the application spectrum of LCP connectors.
Demand for small and thin connectors has significantly increased in recent years owing to device miniaturization. This can be linked with the rising preference for LCP connectors. Over the years, several types of LCP connectors have come up, offering a wide range of circuit wiring solutions. Materials that are currently used for making connectors include Polyethyleneimine (PEI), Polybutylene terephthalate (PBT), Crystal Polymer (LCP), Polyphenylene sulfide (PPS), and Nylon 66. LCP is one of most common materials used for making connectors as it has high inertness and durability.
Growth of sectors such as automobile, aerospace and consumer electronics is also providing an impetus to the global LCP connectors market. LCP connectors find tremendous application in modern electronic components. Portability and miniaturization are key area of focus for electronic manufacturers, which is paving the way for LCP connectors. Nonetheless, arrival of superior alternatives is viewed as a major threat to the LCP connectors market.
Get Free Sample Report @ https://www.marketresearchfuture.com/sample_request/7443
Global LCP Connector Market: Competitive Landscape
MRFR’s report includes a detailed analysis on competitive landscape of the market, which covers Wurth Group (Wurth Elektronik), TE Connectivity Ltd., Japan Aviation Electronics Industry, Ltd., Sumitomo Chemical Company, Amphenol Corporation, RTP Company, Molex Inc., Asia International Enterprise (HK) Limited, Axon' Cable, Celanese Corporation, 3M Company, Polyplastics Co. Ltd., Cinch Connectivity Solutions, OMRON Corporation, Solvay SA, HARTING Technology Group, and Hirose Electric Co. Ltd.
Global LCP Connector Market: Segmental Analysis
MRFR’s report also includes an exhaustive segmental analysis of the market based on connector and region. On the basis of connector type, the market has been segmented into heavy duty power connectors, D-shaped connectors, power connectors, fiber optic connectors, USB, DVI, HDMI connectors, solid-state lighting connectors, rectangular connectors, card edge connectors, modular connectors, coaxial connectors, FFC, FPC connectors, blade-type power connectors, circular connectors, pluggable connectors, memory connectors and backplane connectors. The rectangular connectors segment accounts for more than one-third share of the market. The segment is projected to soar at a CAGR of 8.5% from 2018 to 2023. Rectangular connectors are witnessing widespread popularity owing to their high durability. They are use in heavy-duty electronic products. These connectors also have different locking mechanism option such as bayonet/screw/double/single latches. The circular connectors segment holds the second position and is currently valued at over USD 1,300 Mn. The coaxial connectors segment is expected to post the strongest CAGR during the projection period.
Table of Content:
4 Research Methodology
4.1 Research Process 24
4.2 Forecast Model 28
5 Market Dynamics
5.1 Overview 30
5.2 Drivers 30
5.2.1 Increasing Trend Of Miniaturizing Electrical Components 30
5.2.2 Growth Of The Automotive Industry 30
5.3 Opportunity 31
5.3.1 Possible Applications Of LCP Connectors In The Telecom, Electronics, And Medicine 31
5.4 Restraint 31
5.4.1 Disadvantages Over PPA (Polyphthalamide) Connectors 31
5.5 Emerging Trend 31
6 Market Factor Analysis
6.1 Connector Material Benchmarking 34
6.1.1 List Of Vendors Who Sell Modified LCPs To Connector Manufacturers 35
6.1.2 Industry Standards For LCP Suppliers 35
6.1.2.1 Registration, Evaluation, Authorization And Restriction Of Chemicals (REACH) 35
6.1.2.2 Restriction Of Hazardous Substances (RoHS) Directive 35
6.1.2.3 The National Institute Of Standards And Technology (NIST) 35
6.1.2.4 UL 746 Series 36
6.1.2.5 International Electrotechnical Commission (IEC) 36
6.2 Supply Chain Analysis 36
6.2.1 Liquid Crystal Polymers (LCPs) Manufacturers/Suppliers 37
6.2.2 LCP Connector Manufacturers 37
6.2.3 Distribution Channel Partners 37
6.2.4 Applications Areas 37
6.3 Porter’s Five Force Model 38
6.3.1 Threat Of New Entrants 38
6.3.2 Bargaining Power Of Suppliers 39
6.3.3 Threat Of Substitutes 39
6.3.4 Bargaining Power Of Buyers 39
6.3.5 Competitive Rivalry 39
7 Global LCP Connector Market, By Connector Type
7.1 Overview 41
7.1.1 Rectangular Connectors 41
7.1.2 Circular Connectors 42
7.1.3 Card Edge Connectors 42
7.1.4 Backplane Connector 43
7.1.5 Modular Connector 44
7.1.6 Heavy Duty Power Connectors 44
7.1.7 FFC,FPC Connectors 45
7.1.8 D-Shaped Connector 46
7.1.9 Coaxial Connector 46
7.1.10 Power Connectors: 47
7.1.11 Memory Connectors: 48
7.1.12 Fiber Optic Connectors 49
7.1.13 Pluggable Connectors 49
7.1.14 USB, DVI, HDMI Connectors 50
7.1.15 Blade-Type Power Connectors 51
7.1.16 Solid State Lighting Connectors 52
8 Global LCP Connector Market, By Region
8.1 Overview 55
8.2 North America 56
8.2.1 US 59
8.2.2 Canada 61
8.2.3 Mexico 63
8.3 Europe 65
8.3.1 UK 69
8.3.2 Germany 71
8.3.3 France 73
8.3.4 Rest Of Europe 75
8.4 Asia-Pacific 76
8.4.1 China 80
8.4.2 Japan 82
8.4.3 India 84
8.4.4 Rest Of Asia-Pacific 86
8.5 Rest Of The World 88
8.5.1 Middle East & Africa 91
8.5.2 Latin America 93
9 Competitive Landscape
9.1 Competitive Scenario 96
10 Company Profiles
10.1 Amphenol Corporation 99
10.1.1 Company Overviews 99
10.1.2 Financial Overview 99
10.1.3 Products/Services Offered 100
10.1.4 Key Developments 100
10.1.5 SWOT Analysis 101
10.1.6 Key Strategies 101
10.2 Molex Inc. 102
10.2.1 Company Overviews 102
10.2.2 Products/Services Offered 102
10.2.3 Key Developments 102
10.2.4 SWOT Analysis 103
10.2.5 Key Strategies 103
10.3 Wurth Group (Wurth Elektronik) 104
10.3.1 Company Overview 104
10.3.2 Financial Revenue 104
10.3.3 Products/Services/Solutions Offered (Wurth Elektronik) 105
10.3.4 Key Developments (Wurth Elektronik) 105
10.3.5 SWOT Analysis 105
10.3.6 Key Strategies 105
10.4 Axon' Cable 106
10.4.1 Company Overview 106
10.4.2 Products/Solution Offered 106
10.4.3 Key Developments 106
10.4.4 SWOT Analysis 107
10.4.5 Key Strategies 107
10.5 TE Connectivity Ltd 108
10.5.1 Company Overviews 108
10.5.2 Financial Overview 108
10.5.3 Products/Services Offered 109
10.5.4 Key Developments 109
10.5.5 SWOT Analysis 109
10.5.6 Key Strategies 109
10.6 3M Company 110
10.6.1 Company Overviews 110
10.6.2 Financial Overview 110
10.6.3 Products/Services Offered 111
10.6.4 SWOT Analysis 111
10.6.5 Key Strategies 111
10.7 Cinch Connectivity Solutions 112
10.7.1 Company Overviews 112
10.7.2 Products/Services Offered 112
10.7.3 Key Developments 112
10.7.4 SWOT Analysis 113
10.7.5 Key Strategies 113
10.8 OMRON Corporation 114
10.8.1 Company Overview 114
10.8.2 Financial Overview 114
10.8.3 Products/Services Offered 115
10.8.4 SWOT Analysis 115
10.8.5 Key Strategies 115
10.9 Japan Aviation Electronics Industry, Ltd 116
10.9.1 Company Overview 116
10.9.2 Financial Overview 116
10.9.3 Products/Services Offered 117
10.9.4 Key Developments 117
10.9.5 SWOT Analysis 117
10.9.6 Key Strategies 117
10.10 HARTING Technology Group 118
10.10.1 Company Overview 118
10.10.2 Financial Overview 118
10.10.3 Products/Solution Offered 119
10.10.4 Key Developments 119
10.10.5 SWOT Analysis 119
10.10.6 Key Strategies 119
10.11 Hirose Electric Co. Ltd. 120
10.11.1 Company Overview 120
10.11.2 Financial Revenue 120
10.11.3 Products/Services/Solutions Offered 121
10.11.4 Key Developments 121
10.11.5 SWOT Analysis 121
10.11.6 Key Strategies 122
10.12 Solvay SA 123
10.12.1 Company Overview 123
10.12.2 Financial Overview 123
10.12.3 Products Offered 124
10.12.4 Key Developments 124
10.12.5 SWOT Analysis 124
10.12.6 Key Strategies 124
10.13 Polyplastics Co. Ltd 125
10.13.1 Company Overview 125
10.13.2 Financial Overview 125
10.13.3 Products Offered 125
10.13.4 Key Developments 126
10.13.5 SWOT Analysis 126
10.13.6 Key Strategies 126
10.14 Celanese Corporation 127
10.14.1 Company Overview 127
10.14.2 Financial Overview 127
10.14.3 Products Offered 128
10.14.4 Key Developments 128
10.14.5 SWOT Analysis 128
10.14.6 Key Strategies 128
10.15 Asia International Enterprise (HK) Limited 129
10.15.1 Company Overview 129
10.15.2 Financial Overview 129
10.15.3 Products Offered 129
10.15.4 SWOT Analysis 129
10.15.5 Key Strategies 129
10.16 RTP Company 130
10.16.1 Company Overview 130
10.16.2 Financial Overview 130
10.16.3 Products Offered 130
10.16.4 Key Developments 130
10.16.5 SWOT Analysis 130
10.16.6 Key Strategies 130
10.17 Sumitomo Chemical Company 131
10.17.1 Company Overview 131
10.17.2 Financial Overview 131
10.17.3 Products Offered 132
10.17.4 SWOT Analysis 132
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Global LCP Connector Market: Regional Outlook
Key regions covered in the report include Europe, Asia Pacific (APAC), the Middle East, Africa, North America and Latin America. Asia Pacific and North America are expected to remain highly attractive investment destinations for market players operating on a global level. In terms of revenue, APAC currently makes the largest contribution to the global LCP connector market. The Chinese dominance in electronics manufacturing to some extent characterizes the region’s position in the global market. Over the years, several economic reforms have taken place in the country, bringing China under the spotlight. Meanwhile, its neighboring country India has also joined the race in an attempt to expedite it economic growth. This has augured well for the LCP market in APAC. Moreover, a number of prominent electronic manufacturers are based in APAC, which also favors the market’s prospects in the region. North America LCP connector market is projected to witness a restively higher CAGR during the review period. The market is North America is currently valued at over USD 1,300 Mn.
About Us
Market Research Future (MRFR) is an esteemed company with a reputation of serving clients across domains of information technology (IT), healthcare, and chemicals. Our analysts undertake painstaking primary and secondary research to provide a seamless report with a 360 degree perspective. Data is compared against reputed organizations, trustworthy databases, and international surveys for producing impeccable reports backed with graphical and statistical information.
We at MRFR provide syndicated and customized reports to clients as per their liking. Our consulting services are aimed at eliminating business risks and driving the bottomline margins of our clients. The hands-on experience of analysts and capability of performing astute research through interviews, surveys, and polls are a statement of our prowess. We constantly monitor the market for any fluctuations and update our reports on a regular basis.
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Email: [email protected], trustworthy databases, and international surveys for producing impeccable reports backed with graphical and statistical information.
We at MRFR provide syndicated and customized reports to clients as per their liking. Our consulting services are aimed at eliminating business risks and driving the bottomline margins of our clients. The hands-on experience of analysts and capability of performing astute research through interviews, surveys, and polls are a statement of our prowess. We constantly monitor the market for any fluctuations and update our reports on a regular basis.
Media Contact:
Market Research Future
Office No. 528, Amanora Chambers
Magarpatta Road, Hadapsar,
Pune - 411028
Maharashtra, India
+1 646 845 9312
Email: [email protected]
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Surge Protection Devices Market : Scrutinizes the expanse, industry share, development 2017-2025
Global Surge Protection Devices Market: Overview
Surge protection devices form an important element of electrical installation protection systems for a range of applications such as communication and automatic control buses, telephone networks, and electric power supply networks. They are considered to be one of the most efficient and commonly used types of overvoltage protection devices that protect from internal load switching, utility switching, lightning, and other damaging transient effects. Besides protecting sensitive electronic equipment, they can be implemented to curb costly downtimes.
Global Surge Protection Devices Market: Key Trends
The analysts foresee recurrent equipment failures causing cost escalation, an increase in substitute energy programs, power quality problems, and hiking demand for electronic device protection systems to help speed up the growth of the world surge protection devices market. Less developed economies are anticipated to birth opportunities for market players to fight constraints such as high installation cost of surge protection devices. Growth prospects in different areas of the market could answer for other deterrents such as safety issues, unfitting testing, confusing assumptions, and substandard design parameters.
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The global surge protection devices market could see a classification on the basis of discharge current. By type, plug-in surge protection devices are forecasted to clasp a leading share in the market, whereas hard-wired surge protection devices could secure a rising demand on the back of the primary need for protection from surges for various equipment. Players in the market are projected to leverage the new revenue pockets created through the industrial segment by end use expected to grow at a faster rate. Initiatives such as Industry 4.0 have increased the need for critical equipment including communication systems, servers, and datacenters, and in turn, the requirement of surge protection devices.
Global Surge Protection Devices Market: Market Potential
Top-rank Irish power management company, Eaton has released the all-new modular device range MTL SD Modular that provides a higher level of transient surge protection available for modular pluggable devices, i.e. up to 20 kA. Valuable distributed control systems and other instruments can be completely and cost-effectively protected by MTL SD Modular. Eaton’s new offering is expected to provide solutions for a more than 50.0% premature electronic equipment failures due to maintenance negligence and surge-related breakdowns.
Global Surge Protection Devices Market: Regional Outlook
With quarrying, mining, construction, and manufacturing activities on the rise, Eastern Europe is predicted to make the most of the demand for surge protection devices. Since Eastern Europe is one of the low industrial production areas, manufacturing facilities are increasingly transferring their operations to the region in order to fill the gap. Moreover, the strategic initiatives taken in Europe for the purpose of digitally developing manufacturing, IT, and industrial sectors have surged the implementation of networks, systems, and machines based on intelligent information and communication technology (ICT). This is likely to aggravate the demand for surge protection devices.
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However, Asia Pacific is projected to register a higher growth on account of urbanizing populations and propelling investments for modernizing infrastructure in nations such as India and China. Major potential foreign direct investment (FDI) gains, capital investment percentage, and a large-scale move toward clean energy to satisfy spiraling energy requirement could help Asia Pacific augment its further growth.
Global Surge Protection Devices Market: Competitive Landscape
Followed by recognitions and awards, agreements and contracts, and acquisitions and mergers, new product developments are envisaged to be a go-to strategy of major players in the international surge protection devices market. Emerson Electric Company, Schneider Electric SE, Siemens AG, and ABB, Ltd. are expected to be the leading companies making their presence known in the market.
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About TMR Research
TMR Research is a premier provider of customized market research and consulting services to business entities keen on succeeding in today’s supercharged economic climate. Armed with an experienced, dedicated, and dynamic team of analysts, we are redefining the way our clients’ conduct business by providing them with authoritative and trusted research studies in tune with the latest methodologies and market trends.
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An Intro to Hyperledger Sawtooth
Together with the emergence of blockchain as a distributed ledger system, blockchain platform like Hyperledger Fabric has acquired immense popularity and adoption across numerous verticals. It is primarily due to the unique structure and extremely scalable qualities to support enterprise-grade applications. Giving a tough fight to Hyperledger Fabric is just another powerful platform -- the Hyperledger Sawtooth.
Propounded from Intel, Hyperledger Sawtooth is a venture distributed ledger. It was conceptualized to offer modularity, scalability and support for consent and permissionless networks. It's remarkably known as the first job to join Linux Foundation's Hyperledger umbrella.
Most conventional blockchain platforms confront security and performance problems as they execute and host the applications and core on precisely the exact same platform. Hyperledger sawtooth accomplishes this challenge by isolating the core ledger system in the application-specific environment. Hence, application development gets simpler yet ensuring that the security and safety of the system with high transaction throughput.
Characteristics of Hyperledger Sawtooth
SETH Compatibility
SETH stands for Sawtooth- Ethereum Integration project. SETH permits the feasibility of deploying Ethereum intelligent contracts into the Sawtooth platform in collaboration with all the SETH transaction household. The SETH trade chip, along with Hyperledger Burrow Ethereum Virtual Machine, helps execute Ethereum smart contracts on the Sawtooth platform.
Parallel Transaction Support
Several blockchain platforms need serial transaction execution to keep consistent sequence at every network node. On the contrary, the capability of Hyperledger Sawtooth for category the trades into batches which makes it suitable for processing concurrent transactions. Sawtooth comprises an advanced parallel scheduler to categorize transactions for similar flow. In the event the trades comply with all the ACID principle, it's also possible to configure them in to different permutations and combinations with Sawtooth.
Private permissioned Networks
Sawtooth may tackle the challenges of a permissioned network because it is possible to deploy the bunch of its nodes with isolated permissioning. Hence, it will become difficult for centralized service to flow any confidential info or trade pattern.
Pluggable Consensus Mechanisms
Sawtooth supports different consensus kinds on precisely the same blockchain. The consensus mechanics can be chosen at the first stage during the network setup and can also be shifted on a running blockchain using a trade.
Customized transaction Processors
Sawtooth enables defining of habit transaction processors to satisfy the unique needs of each application. It offers trade families to serve the needs related to low-level purposes. Low-level functions normally include storing on-chain permissions, handling chain-wide settings, saving block information, and performance analysis.
Segregation of Core system and application level
Hyperledger Sawtooth simplifies the application development and deployment with isolation of application-level and core system level. It gives smart contract abstraction so that programmers can create contract logic from the programming language.
Consensus Implementation supported by Hyperledger Sawtooth
Proof of Elapsed Time (PoET)
It signifies Nakamoto-style consensus, made specifically as a production-grade protocol to support a vast network. Depending upon the secured instruction implementation, it enhances the scalability of this Nakamoto-style consensus mechanism with no electricity consumption issues of the PoW algorithm.
PoET Simulator
It allows PoET-style consensus on any hardware and a virtualized cloud atmosphere.
Dev style
It's the most available random-leader mechanism adopted for testing and development.
For executing the trade, Hyperledger Sawtooth assembles a trade family comprising a data model and a set of transaction languages. Together with Hyperledger Sawtooth, users can make custom trade families to represent their unique needs. It also offers the following trade families as models:
Identity handles on-chain permissioning for validator and transactor keys to simplify identity management to people keys' lists.
Settings enable implementation for saving on-chain configuration settings.
BlockInfo offers an approach for storing information related to a number of historic cubes.
Smallbank assesses performance analysis of performance testing and benchmarking while comparing blockchain systems' performance.
On account of the access to all features and characteristics, Hyperledger Sawtooth serves as a promising blockchain platform to build enterprise-grade modular software. When it comes to developing software which require high scalability, efficiency, and elaborate trade execution, Hyperledger Sawtooth is also a perfect option.
Look out for a group of blockchain specialists who can help you in streamlining your business operations with distributed ledger technology.
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LCP Connectors Market Production Value, Gross Margin Analysis, Sales, Demand, and Global Research Report 2023
Primary Drivers and Key Barriers
Market Research Future (MRFR) mentions in its latest insightful report that the global LCP connectors market can note tremendous growth in the years to come. MRFR says that the market has the potential to record a growth rate of 8.1% during the forecast period (2018-2023).
LCP connectors are in high demand, given its use in a variety of applications as they offer a number of advantages, including inertness, high resistance to fire as well as non-reactivity. These features have made LCP connectors quite appealing and augmented its use in several traditional electric applications. The booming electronics industry is quickly adopting the latest trend of miniaturization of electric appliances, boosting the demand for LCP connectors since they help in the development of high-precision injection-molded parts.
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Worldwide surge in demand for consumer electronics devices, like tablets, cell phones, and laptops is also believed to uplift the position of the global liquid crystal polymer (LCP) connectors market. Elevated demand for miniaturized electronic components, like connectors as well as surface mounting devices, is projected to trigger the growth of the LCP connectors market in the forthcoming years. Miniaturization of devices leads to incorporation of higher number of features into tinier packages for streamlining systems by the manufacturers.
Soaring demand for lightweight as well as high-performance materials in a bid to enhance the automobile fuel efficiency can stimulate the demand for the LCP connectors market during the review period. Weight reduction is considered to be one of the top priorities in the automobile industry, since it helps bring down the carbon footprint of the vehicle. Strict environment-related regulations in Europe and North America has led to a decline in the CO2 emissions, which is bound to induce market growth in the near future.
Top Players
MRFR outlines the top players that form the competitive landscape of the worldwide LCP connectors market, which include Japan Aviation Electronics Industry, Ltd., HARTING Technology Group, Sumitomo Chemical Company, Wurth Group (Wurth Elektronik), RTP Company, Solvay SA, Asia International Enterprise (HK) Limited, Axon' Cable, Celanese Corporation, 3M Company, Molex Inc., Cinch Connectivity Solutions, Amphenol Corporation, TE Connectivity Ltd., Hirose Electric Co. Ltd, OMRON Corporation, Polyplastics Co. Ltd., to name a few.
Market Segmentation
The report givens a thorough segmental analysis of the LCP connectors market on the basis of connector.
The connector types mentioned in the MRFR report are D-shaped connectors, heavy duty power connectors, fiber optic connectors, power connectors, DVI, USB, solid-state lighting connectors, HDMI connectors, card edge connectors, rectangular connectors, coaxial connectors, modular connectors, FPC connectors, FFC, circular connectors, blade-type power connectors, memory connectors, backplane connectors and pluggable connectors.
The rectangular connectors segment forms over one-third of the total market and can capture a CAGR of 8.5% during the forecast period (2018-20230. Rectangular connectors are enjoying immense demand in the market, on account of their high durability, which has also boosted its use in heavy-duty electronic products. The second position in the market has been seized by the circular connectors segment, whose current value stands at more than USD 1,300 Mn. Coaxial connectors are touted to be the fastest gaining segment in the market during the projection period.
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Regional Insight
Primary regions that are part of the LCP Connectors market are Europe, the Middle East, Africa, Asia Pacific (APAC), North America as well as Latin America.
The APAC market for LCP connectors, along with North America, seems to be on the way to becoming a highly attractive investment destination for the market vendors. Revenue-wise, APAC holds the largest share in the global LCP connector market, with China identified as the leading country in the region. The country’s strong foothold in electronics manufacturing is believed to be one of the prime reasons for the region’s high position in the global market. In recent years, numerous economic reforms have occurred in China, which has brought the country under the spotlight. Meanwhile, India has also become a proactive member of the race, in a bid to expedite its economic trajectory, which has worked in favor of the LCP market in the region. In addition, the region is inundated with a large pool of renowned electronic manufacturers, which also stimulates the market’s prospects in the region. The LCP connector market in North America is expected to attain a better growth rate during the estimation period, and its valuation as of now is more than USD 1,300 Mn.
The latest trend of developing miniaturized connectors is most likely to induce the growth of the LCP connectors market in Europe in the upcoming years. Creating lightweight materials for automobile components in an attempt to boost fuel efficiency and bring down carbon emissions can also help the Liquid Crystal Polymer (LCP) market to expand significantly in the region during the conjectured period.
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Generator Set SmartGen HGM9510 Parallel Controller
HGM9510 controller is designed for manual/auto parallel system generators with similar or different capacity. Additionally, it is suitable for single unit constant power output and mains paralleling. It allows automatic start/stop, parallel running, data measurement, alarm protection as well as remote control, remote measurement and remote communication function. It fits with LCD display, optional Chinese, English and other languages interface, and it is reliable and easy to use.
Utilizing the GOV (Engine Speed Governor) and AVR (Automatic Voltage Regulator) control function, the controller is able to synchronize and share load automatically; it can be used to parallel with other HGM9510 controller.
HGM9510 controller also monitors the engine, indicating the operational status and fault conditions accurately. When abnormal condition occurs, it splits bus and shuts down the genset, simultaneously the exact failure mode information is indicated by the LCD display on the front panel. SAE J1939 interface enables the controller to communicate with various ECU (ENGINE CONTROL UNIT) which fitted with J1939 interface.
The powerful 32-bit Microprocessor contained within the module allows for precision parameters measuring, fixed value adjustment, time setting and set value adjusting and etc..Majority parameters can be configured from front panel, and all parameters can be configured by USB interface (or RS485) to adjust via PC. It can be widely used in all types of automatic gen-set control system with compact structure, advanced circuits, simple connections and high reliability.
Power Supply: DC(8-35)V
Case Dimensions: 266*182*45(mm)
Panel Cutout: 214*160(mm)
Operating Temp. : (-25~+70) °C
Weight: 0.95kg
Performance and Charateristics
1. With ARM-based 32-bit SCM, high integration of hardware and more reliable;
2. 480x272 LCD with backlight, multilingual interface (including English, Chinese or other languages) which can be chosen at the site, making commissioning convenient for factory personnel;
3. Improved LCD wear-resistance and scratch resistance due to hard screen acrylic;
4. Silicon panel and pushbuttons for better operation in high/low temperature environment;
5. RS485 communication port enable remote control, remote measuring, remote communication via ModBus protocol.
6. Fitted with CANBUS port and can communicate with J1939 genset. Not only can you monitoring frequently-used data (such as water temperature, oil pressure, engine speed, fuel consumption and so on) of ECU machine, but also control start, stop, raising speed and speed droop via CANBUS port.
7. Suitable for 3-phase 4-wire, 3-phase 3-wire, single phase 2-wire, and 2-phase 3-wire systems with voltage 120/240V and frequency 50/60Hz;
8. Collects and shows 3-phase voltage, current, power parameter and frequency of Bus/mains.
9. For Bus, controller has loss of phase and phase sequence wrong detection functions; For generator, controller has over voltage, under voltage, over frequency, under frequency, over current, over power, reverse power, loss of phase, phase sequence wrong detection functions;
10. Synchronization parameters: Voltage Difference Between Bus and Mains, Frequency Difference Between Bus and Mains, Phase Difference Between Bus and mains;
11. Multiple running modes in auto state: with load running, off load running, demand parallel running;
12.Ramp on and ramp off function;
a. 3 fixed sensors (temperature, oil pressure and liquid level);
b. 2 configurable sensors can be set as sensor of temperature, oil pressure or fuel level;
13. More kinds of curves of temperature, oil pressure, fuel level can be used directly and users can define the sensor curves by themselves;
14. Precision measure and display parameters about Engine,
Temp. (WT) °C/°F (unit) both be displayed
Oil pressure (OP) kPa/psi/bar(unit) all be displayed
Fuel level (FL) %(unit)
Speed (SPD) r/min(unit)
Battery Voltage (VB) V (unit)
Charger Voltage (VD) V (unit)
Hour count (HC) can accumulate Max. 65535 hours.
Start times can accumulate Max. 65535 times
15. Protection: automatic start/stop of the gen-set, ATS(Auto Transfer Switch) control with perfect fault indication and protection function;
16. All output ports are relay output;
17. Parameter setting: parameters can be modified and stored in internal EEPROM memory and cannot be lost even in case of power outage; most of them can be adjusted using front panel of the controller and all of them can be modified using PC via USB or RS485 ports;
18. Multiple crank disconnect conditions (speed sensor, oil pressure, generator frequency) are optional;
19. Widely power supply range DC(8~35)V, suitable to different starting battery voltage environment;
20. Event log, real-time clock, scheduled start & stop generator (can be set as start genset once a day/week/month whether with load or not);
21. Accumulative total run time and total electric energy of A and B. Users can reset it as 0 and re-accumulative the value which make convenience to users to count the total value as their wish.
22. Can control engine heater, cooler and fuel pump.
23. With maintenance function. Actions (warning, trip and stop, shutdown) can be set when maintenance time out;
24. All parameters used digital adjustment, instead of conventional analog modulation with normal potentiometer, more reliability and stability;
25. IP55 waterproofness level can be achieved with the help of rubber-ring gasket between shell and control panel.
26. Metal fixing clips enable perfect in high temperature environment;
27. Modular design, self-extinguishing ABS plastic shell, pluggable terminal, built-in mounting, compact structure with easy installation;
Starlight Power is authorized as the OEM of SmartGen for generator set. For parallel operation genset, we use SmartGen HGM9510 controller. For common genset, we use HGM6110 control module.
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Global Lighting Connectors Market to Witness Significant Rise in Revenue During the Forecast Period 2019 – 2029
Lighting connectors productsare planned to reliably connect lighting systems and seamlessly integrate power transmission, lighting controls and data. Lighting connectors are fully pluggable, flexible, modular wiring, cabling systems and sealed connector for permanent power and data circuit electrical installations in the construction industry. Moreover, key manufacturers are focusing on manufacture regular and quality lighting connectors to increase the life span of the lighting connectors and to improve its performance, and increasing the company’s productivity. The global LED lighting market is dominating the lighting connectors market. Advanced connectivity is transforming devices, machines, and networks into the integrated, responsive technology. Lighting connectors supplied standard plating options for gold or tin with high-temperature insulators suitable for RoHS compliant environments and reflow soldering. The lighting connectors provides application includes outdoor lighting, commercial refrigeration lighting, public transport stations, communication system, trailer lighting.
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Lighting Connectors Market: Drivers and Restraints
The adoption of 5G ecosystems, internet of things (IoT), and artificial intelligence (AI) has positive impact on lighting connectors market. The global lighting connectors market influenced by various factors such as macroeconomic conditions which are impacting the new construction and subsequently new lighting installation. The large market size and high growth rate of lighting connectors application is attributed to the rising infrastructural activities worldwide, mainly focused on residential lighting. Lighting connectors used for residential buildings is expected to have a massive potential in the future. In addition, lighting connectors offer the multiple features such as UL and CSA approvals, secure termination options, high current and voltage ratings, customization with marking and wire pre-termination options, manifold rising and connection options available are increases the demand for lighting connectors market over the forecast period.
Furthermore, the rising adoption for advanced lighting technology which is used as a replacement for lighting connectors market are suggested be one of the important factor which is negatively affecting the global lighting connectors market for the forecast period
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Lighting Connectors Market: Segmentation
The lighting connectors market has been segmented on the basis of end user, technology type, and region.
The lighting connectors market is segmented on the basis of product type:
High-Frequency Connector
Low-Frequency Connector
Mixer Connector
The lighting connectors market is segmented on the basis of material type:
Copper Alloy
Tin
Nickel
The lighting connectors market is segmented on the basis of solution:
LED Street Lighting Solution
Indoor Lighting Solution
Outdoor Lighting Solution
Horticultural Lighting Solution
The lighting connectors market is segmented on the basis of end user:
Construction Industry
Aerospace
Automotive
Marine
Medicals & Healthcare
Lighting Connectors Market: Competition Landscape
Some of the prominent players manufacturing Lighting Connectors are Elemental LED, Liberty Lighting Group, TE Connectivity, Global Connector Technology among others
In June 2019, Elemental LED partnered with Liberty Lighting Group, for expanding the diode LED product brand portfolio and providing the best possible customer service.
In September 2018, TE Connectivity introduced online store with instant access to pricing, product inventory. TE connectivity which offers through online stores such as customers to have option for purchase featured products direct through TE.com or choose distributors, along with immediate access to product pricing, daily updates on product availability, and flexible shipping and delivery options.
In April 2016 – Global Connector Technology designed new wire trap lighting connectors for use in LED lighting strip applications, 2.40 mm and 4.00 mm pitches. The new wire trap lighting connectors offers advanced features such as natural LCP insulators and are available in one, two or three connection versions
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Lighting Connectors Market: Regional overview
The lighting connectors market has a huge potential in the APAC region, and it is estimated that the lighting systems would be accepted by consumers as an important part of a digitalized household. Although the current slowdown in the real estate market in China, the market for lighting connectors is expected to reach at a high rate, because of the rising government expenditure on public infrastructure and significant growth in industrial and commercial building constructions. The debt crisis in Europe harmfully impact demand for lighting connector since their manufacture requires vast capital investments. Nowadays, North America and Europe markets have witnessed a boom due to government support and growing usage of ultra-modern lighting in several industries.
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Led street light china
Led street light China stock ranges from 28 million to 30 million. In recent years, the number of new street lamps is 15% - 20%, about 3 million - 6 million. According to the annual number of new street lamps are all LED lamps, calculated at 1000-2000 yuan per lamp, the annual growth is between 3 billion and 6 billion yuan.
Development of Led street light china
The failure rate of Led street light China over 6000 hours is less than 1%. Lighting accounts for about 19% of the world's electricity consumption. If the global lighting system is twice as efficient as the existing one, it would be equivalent to removing half of Europe's electricity consumption and heat exhaust. A global independent experiment has been set up recently. Led street light China can save up to 85% of its energy.
Led street light china Market
In December 2017, China produced 250 million sets of lamps and lighting devices, an increase of 12.45% over the same period last year. From January to December 2017, the national output of lamps and lighting devices reached 2.5 billion sets, an increase of 6.38% over the same period last year. From the output of provinces and cities, the output of lamps and lighting devices in Zhejiang Province reached 1.07 billion sets from January to December 2017, an increase of 9.13% over the previous year, accounting for 42.40% of the total national output; the output of lamps and lighting devices in Guangdong Province reached 870 million sets, a decrease of 44% over the previous year, accounting for 34.43% of the total national output. Led street light has become a hot product made in China and an attractive investment area.
Led street light china manufacturer
Shanghai JingRui lighting is a professional enterprise integrating research and design, production, sales and service.Our main products include LED Flood Light, LED Street Light, LED Grow Light, HID Flood Light, Ballast and Bulb, etc. which are widely used for mobile light tower, construction sites, stadium, parking lot, road, ports and docks, etc.
Categories of
Led street light china
1. According to the height of street lamp: high pole lamp, middle pole lamp, road lamp, courtyard lamp, lawn lamp, buried lamp;
2. According to the material of street lamp pole: hot-dip galvanized iron street lamp, hot-dip galvanized steel street lamp and stainless steel street lamp;
3. According to the shape: Chinese lamp, antique lamp, landscape lamp, single-arm street lamp, double-arm street lamp.
4. According to the mode of power supply: City circuit lamp, solar street lamp and wind-solar complementary street lamp
Led street light china products
SL01
● Use imported integrated LED, high light efficiency, slow light depreciation
● Die-casting aluminum shell, surface electrostatic spraying, anti-corrosion treatment
● The structure of the people-oriented design concept, easy for installation and maintenance
SL02
● The light body is designed on the basis of fluid dynamics, simple and decent, UV-resistance and corrosion treatment applied to the surface
● Modular designed, the power can be customized, meet the needs of various occasions
● Dustproof light body is helpful for LED dissipation, so the LED light can be worked on the best temperature environment, ensure the lamp source and power supply working time
SL08
● High performance aluminum (ADC12) die-casting lamp heatsink with good thermal conductivity.
● Aluminum heatsink housing using Akzo Nobel powder coating or Dupont powder coating with high temperature baking process after polishing, cleaning, oil removal, repairing, sandblasting, with clear and gloss surface and strong corrosion resistance.
● The chip bottom of heat conducting surface processed by CNC machine to be smooth after heatsink powder coated, make the SMD and heatsink surface to be coincided with better heat conducting and heat dissipating.
SL10
● Integrated die-casting structure, all-metal lamp housing, reasonable design and beautiful shape.
● By using modular pluggable technology, make field servicing be done with only simple tools
● Achieve efficient heat dissipation performance by using Hot Honeycomb Principle and Full Structure Heat Dissipation Technology.
● Reach IP67protection level by using double coupling technology, super-high waterproof and dust-proof.
The future of Led street light china
In the future, the LED street lamp driving power supply will also develop rapidly with the rapid promotion of the LED street lamp. It will be an opportunity for the LED street lamp driving power enterprises with technical and financial strength as support. It is predicted that by 2021, the share of LED in China's lighting market will reach 80%. China will become the largest LED lighting market in the world, with a market scale exceeding trillion yuan.
http://www.jr-lighting.com/led-street-light.html
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An Extensive Guide That Covers about Terminal Blocks, Including DIN Rail Mounted Terminal Blocks
We do not want this subject title to be detrimental by far!
It happens since most of the blogs discuss the extreme level of technicalities, and in the same manner, when it comes to making their readers understand about the subject title discussion, things vary completely opposite.
Therefore, in the post itself, we will be discussing what Terminal Block stands for, types of Terminal Blocks, and some sneak peek into DIN Rail Mounted Terminal Blocks for your industrial purposes.
So, do stick around and learn through it as thoroughly as possible.
Here we go:
What is Terminal Block?
You might have heard about connection terminal or connector. That’s what it is! It’s just a sort of modular block that manages to fix two or more wires together! It’s that connection you may need for your industrial usages!
Types of Terminal Blocks You Should Consider:
Screw Terminal
Barrier Terminal
Push-fit Terminal
Pluggable Terminal
DIN Rail Mounted Terminal Blocks
P.S. Are you looking forward to using these Terminal Blocks, more especially DIN Rail Mounted Terminal Blocks for your industrial purposes? Is it – You would like to make sure that you get the best quality, so you can connect wires securely together? If this is the case with you, then this is a high time to consider DIN Rail Mounted Terminal Blocks for your preferences and requirement. The best supplier you should look after when it comes to getting DIN Rail Mounted Terminal Blocks is Elmex. They will always make sure that their customers are given the best satisfaction, so they can have great results on the projects they do work on. That is why it is insisted and made sure you approach them and share your requirement. The best part is – They have amazing reputation in the marketplace.
Here is What You Should Know about DIN Rail Mounted Terminal Blocks:
Such terminal blocks are a source to connecting and identifying two or more wires
If you are looking for an effectively and highly secure electrical connection, that’s when you should consider using DIN Rail Mounted Terminal Blocks!
When you are looking to bridge a contact level connection, DIN Rail Mounted Terminal Blocks work the best!
Final Thoughts
So, what are your thoughts about the terminal blocks which we just discussed?
Did you like the recommendation we got you right in the blog post?
All we want is our readers are given the best angle as well as suggestion, so they feel assisted and their projects stay last long.
In the same regards, do let us know when you are going to contact Elmex since they are the best and reliable supplier, manufacturer of Terminal Blocks by far!
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#Brass-Terminal-Blocks#Euro-Style-Terminal-Blocks#Modular-Terminal-Blocks#Pluggable-Terminal-Blocks#Electrical-Terminal-Blocks#Power-Blocks#Test-Terminal-Blocks#Universal-Terminal-Blocks#ITALY
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LCP Connectors Market Is Likely To Register Double Digit CAGR to 2023
Overview:
A recent study conducted by Market Research Future (MRFR) reveals the global LCP connectors market is set to increase at 8.1% CAGR between 2018 and 2023. Relentless technological advancements in industries such as electronics, medical and telecom has helped broaden the application spectrum of LCP connectors.
Demand for small and thin connectors has significantly increased in recent years owing to device miniaturization. This can be linked with the rising preference for LCP connectors. Over the years, several types of LCP connectors have come up, offering a wide range of circuit wiring solutions. Materials that are currently used for making connectors include Polyethyleneimine (PEI), Polybutylene terephthalate (PBT), Crystal Polymer (LCP), Polyphenylene sulfide (PPS), and Nylon 66. LCP is one of most common materials used for making connectors as it has high inertness and durability.
Growth of sectors such as automobile, aerospace and consumer electronics is also providing an impetus to the global LCP connectors market. LCP connectors find tremendous application in modern electronic components. Portability and miniaturization are key area of focus for electronic manufacturers, which is paving the way for LCP connectors. Nonetheless, arrival of superior alternatives is viewed as a major threat to the LCP connectors market.
Global LCP Connector Market: Regional Outlook
Key regions covered in the report include Europe, Asia Pacific (APAC), the Middle East, Africa, North America and Latin America. Asia Pacific and North America are expected to remain highly attractive investment destinations for market players operating on a global level. In terms of revenue, APAC currently makes the largest contribution to the global LCP connector market. The Chinese dominance in electronics manufacturing to some extent characterizes the region’s position in the global market. Over the years, several economic reforms have taken place in the country, bringing China under the spotlight. Meanwhile, its neighboring country India has also joined the race in an attempt to expedite it economic growth. This has augured well for the LCP market in APAC. Moreover, a number of prominent electronic manufacturers are based in APAC, which also favors the market’s prospects in the region. North America LCP connector market is projected to witness a restively higher CAGR during the review period. The market is North America is currently valued at over USD 1,300 Mn.
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Global LCP Connector Market: Competitive Landscape
MRFR’s report includes a detailed analysis on competitive landscape of the market, which covers Wurth Group (Wurth Elektronik), TE Connectivity Ltd., Japan Aviation Electronics Industry, Ltd., Sumitomo Chemical Company, Amphenol Corporation, RTP Company, Molex Inc., Asia International Enterprise (HK) Limited, Axon' Cable, Celanese Corporation, 3M Company, Polyplastics Co. Ltd., Cinch Connectivity Solutions, OMRON Corporation, Solvay SA, HARTING Technology Group, and Hirose Electric Co. Ltd.
Global LCP Connector Market: Segmental Analysis
MRFR’s report also includes an exhaustive segmental analysis of the market based on connector and region. On the basis of connector type, the market has been segmented into heavy duty power connectors, D-shaped connectors, power connectors, fiber optic connectors, USB, DVI, HDMI connectors, solid-state lighting connectors, rectangular connectors, card edge connectors, modular connectors, coaxial connectors, FFC, FPC connectors, blade-type power connectors, circular connectors, pluggable connectors, memory connectors and backplane connectors. The rectangular connectors segment accounts for more than one-third share of the market. The segment is projected to soar at a CAGR of 8.5% from 2018 to 2023. Rectangular connectors are witnessing widespread popularity owing to their high durability. They are use in heavy-duty electronic products. These connectors also have different locking mechanism option such as bayonet/screw/double/single latches. The circular connectors segment holds the second position and is currently valued at over USD 1,300 Mn. The coaxial connectors segment is expected to post the strongest CAGR during the projection period.
Table of Content:
4 Research Methodology
4.1 Research Process 24
4.2 Forecast Model 28
5 Market Dynamics
5.1 Overview 30
5.2 Drivers 30
5.2.1 Increasing Trend Of Miniaturizing Electrical Components 30
5.2.2 Growth Of The Automotive Industry 30
5.3 Opportunity 31
5.3.1 Possible Applications Of LCP Connectors In The Telecom, Electronics, And Medicine 31
5.4 Restraint 31
5.4.1 Disadvantages Over PPA (Polyphthalamide) Connectors 31
5.5 Emerging Trend 31
6 Market Factor Analysis
6.1 Connector Material Benchmarking 34
6.1.1 List Of Vendors Who Sell Modified LCPs To Connector Manufacturers 35
6.1.2 Industry Standards For LCP Suppliers 35
6.1.2.1 Registration, Evaluation, Authorization And Restriction Of Chemicals (REACH) 35
6.1.2.2 Restriction Of Hazardous Substances (RoHS) Directive 35
6.1.2.3 The National Institute Of Standards And Technology (NIST) 35
6.1.2.4 UL 746 Series 36
6.1.2.5 International Electrotechnical Commission (IEC) 36
6.2 Supply Chain Analysis 36
6.2.1 Liquid Crystal Polymers (LCPs) Manufacturers/Suppliers 37
6.2.2 LCP Connector Manufacturers 37
6.2.3 Distribution Channel Partners 37
6.2.4 Applications Areas 37
6.3 Porter’s Five Force Model 38
6.3.1 Threat Of New Entrants 38
6.3.2 Bargaining Power Of Suppliers 39
6.3.3 Threat Of Substitutes 39
6.3.4 Bargaining Power Of Buyers 39
6.3.5 Competitive Rivalry 39
7 Global LCP Connector Market, By Connector Type
7.1 Overview 41
7.1.1 Rectangular Connectors 41
7.1.2 Circular Connectors 42
7.1.3 Card Edge Connectors 42
7.1.4 Backplane Connector 43
7.1.5 Modular Connector 44
7.1.6 Heavy Duty Power Connectors 44
7.1.7 FFC,FPC Connectors 45
7.1.8 D-Shaped Connector 46
7.1.9 Coaxial Connector 46
7.1.10 Power Connectors: 47
7.1.11 Memory Connectors: 48
7.1.12 Fiber Optic Connectors 49
7.1.13 Pluggable Connectors 49
7.1.14 USB, DVI, HDMI Connectors 50
7.1.15 Blade-Type Power Connectors 51
7.1.16 Solid State Lighting Connectors 52
8 Global LCP Connector Market, By Region
8.1 Overview 55
8.2 North America 56
8.2.1 US 59
8.2.2 Canada 61
8.2.3 Mexico 63
8.3 Europe 65
8.3.1 UK 69
8.3.2 Germany 71
8.3.3 France 73
8.3.4 Rest Of Europe 75
8.4 Asia-Pacific 76
8.4.1 China 80
8.4.2 Japan 82
8.4.3 India 84
8.4.4 Rest Of Asia-Pacific 86
8.5 Rest Of The World 88
8.5.1 Middle East & Africa 91
8.5.2 Latin America 93
9 Competitive Landscape
9.1 Competitive Scenario 96
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About Us
Market Research Future (MRFR) is an esteemed company with a reputation of serving clients across domains of information technology (IT), healthcare, and chemicals. Our analysts undertake painstaking primary and secondary research to provide a seamless report with a 360 degree perspective. Data is compared against reputed organizations, trustworthy databases, and international surveys for producing impeccable reports backed with graphical and statistical information.
We at MRFR provide syndicated and customized reports to clients as per their liking. Our consulting services are aimed at eliminating business risks and driving the bottomline margins of our clients. The hands-on experience of analysts and capability of performing astute research through interviews, surveys, and polls are a statement of our prowess. We constantly monitor the market for any fluctuations and update our reports on a regular basis.
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Ixia, a Keysight Business, Drives Demonstration of 400GE Ecosystem for Hyperscale Data Centers with 10 Industry Leaders at Interop Tokyo
Ixia, a Keysight Business, Drives Demonstration of 400GE Ecosystem for Hyperscale Data Centers with 10 Industry Leaders at Interop Tokyo
First Open Public Demonstration also includes Amphenol, CIG, Cisco, Finisar, FOIT, FIT, Innolight, Leoni, Molex and TE Connectivity
SANTA ROSA, Calif., June 11, 2019 – Keysight Technologies, Inc. (NYSE: KEYS), a leading technology company that helps enterprises, service providers and governments accelerate innovation to connect and secure the world, announced that Ixia, a Keysight Business, organized the world’s first public open demonstration of the 400 Gigabit Ethernet (GE) ecosystem for hyperscale data centers including Ixia’s AresONE-400GE at Interop Tokyo, June 12-14, at Makuhari Messe in Chiba, Japan in booth 5K14.
The evolution to 400GE is making real progress. Companies working in the 400GE ecosystem are making the transition from the trial phase to deployment with advances in optical and copper cable technology. In contrast to the ramp up to 100GE, the move to 400GE is projected to be 20 times faster according to market research firm LightCounting.
Ixia, along with 10 leading companies focused on the roll-out of high-speed Ethernet (HSE) services for hyperscale data centers, will showcase the first public open demonstration of an entire 400GE ecosystem as specified by the IEEE 802.3bs, IEEE 802.3cd, Quad Small Form Factor Pluggable Double Density (QSFP-DD) and Octal Small Form Factor Pluggable (OSFP) multi-source agreements (MSAs).
“Cisco is pleased to participate in this Interop Tokyo 400GE event with Ixia and is encouraged by the demonstrated maturity of the technology,” said Mark Nowell, Cisco Fellow. “Under Cisco’s leadership, Nexus 9000 data center switches are already being tested in customer trials, for rapid adoption of 400GE in hyperscale data centers.”
“This demonstration illustrates the functionality, interoperability and maturity of all aspects of the high-speed Ethernet ecosystem for hyperscale data centers,” said Thananya Baldwin, vice president of strategic programs at Keysight’s Ixia Solutions Group. “We’re proud to organize this live demonstration with 10 partners to show 400GE deployment readiness.”
The demonstration will feature live full line-rate Ethernet traffic running between (32) 400GE ports from state-of-the-art high-density data center 400GE Cisco Nexus 3000 switch and (32) 400GE ports on Ixia’s industry-proven AresONE QSFP-DD and OSFP interfaces, using different optical physical medium dependents (PMDs) from Cambridge Industries Group (CIG), Finisar, Foxconn Optical Interconnect Technologies and InnoLight Technology (Suzhou) Ltd and different direct attached cables (DACs) from Amphenol, Foxconn Interconnect Technolgy (FIT), Leoni, Molex and TE Connectivity. The demonstration will include a wide range of optical PMDs including LR8, FR4, DR4, and SR8 running total of 12.8 Terabits of line-rate Ethernet traffic.
“400GE optical interfaces and their underlying technologies provide data centers and service providers with the bandwidth required to support a large variety of existing and emerging applications,” said Mark Ives, product line management director at Finisar. “Finisar is very excited to be a leader in this ecosystem and to collaborate with Ixia on enabling its implementation through their next-generation test platforms.”
The demonstration also highlights the copper DACs that bridge the physical interface gap between QSFP-DD and OSFP using a QSFP-DD-to-OSFP copper cable that allows these different interfaces to interoperate.
“Amphenol is excited to be exhibiting our latest 400Gb Direct Attach cabling solutions with Ixia at this year’s Interop Tokyo,” said Greg McSorley, technical business development manager, Amphenol Corporation. “Working with our technology partners at an exhibition such as Interop Tokyo, is a great way for our customers to see Amphenol’s full breadth of capabilities.”
400GE FEC-aware Electrical and Optical Stress Testing Seminar at Interop Tokyo
Ixia will hold a seminar, 400GE FEC-aware Electrical and Optical Stress Testing, on Wednesday, June 12 at 1:00 PM in Room C. During the session, Thananya Baldwin will discuss the need to stress test in the presence of Forward Error Correction (FEC).
Ixia AresONE-400GE Test System
The award-winning AresONE-400GE test system is designed to meet the high-port-count test needs of chip and application-specific integrated circuit (ASIC) manufacturers, network equipment manufacturers (NEMs), and hyperscale data center operators and carriers. The AresONE-400GE test system with the OSFP pluggable interface has been named a Best of Show finalist at Interop Tokyo 2019.
Scalable Visibility for the Next-Generation Data Center
Ixia also announced the Vision X network packet broker, a high-density, modular platform that provides enterprises scalable visibility for their next-generation data centers. Ixia’s Vision X network packet broker is designed with a modular approach which enables customers to select different functions, capabilities and speeds as their data center evolves. Network operations teams can upgrade speeds and bandwidth of their visibility solution along with their monitoring and security tool capabilities. Vision X has been named a Best of Show finalist at Interop Tokyo 2019.
About Keysight Technologies Keysight Technologies, Inc. (NYSE: KEYS) is a leading technology company that helps enterprises, service providers, and governments accelerate innovation to connect and secure the world. Keysight's solutions optimize networks and bring electronic products to market faster and at a lower cost with offerings from design simulation, to prototype validation, to manufacturing test, to optimization in networks and cloud environments. Customers span the worldwide communications ecosystem, aerospace and defense, automotive, energy, semiconductor and general electronics end markets. Keysight generated revenues of $3.9B in fiscal year 2018. More information is available at www.keysight.com.
# # #
Additional information about Keysight Technologies is available in the newsroom at https://www.keysight.com/go/news and on Facebook, LinkedIn, Twitter and YouTube.
CONTACTS:
Beth Hespe, Americas and Europe +1 609-994-7442 [email protected] Fusako Dohi, Asia +81 42 660-2162 [email protected]
Darcy Reynolds Tue, 06/11/2019 - 08:00 from Ixia http://bit.ly/2XCpQN6 via IFTTT
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Surge Protection Devices Market – Changing Demand Segmentation 2025
Global Surge Protection Devices Market: Overview
Surge protection devices form an important element of electrical installation protection systems for a range of applications such as communication and automatic control buses, telephone networks, and electric power supply networks. They are considered to be one of the most efficient and commonly used types of overvoltage protection devices that protect from internal load switching, utility switching, lightning, and other damaging transient effects. Besides protecting sensitive electronic equipment, they can be implemented to curb costly downtimes.
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Global Surge Protection Devices Market: Key Trends
The analysts foresee recurrent equipment failures causing cost escalation, an increase in substitute energy programs, power quality problems, and hiking demand for electronic device protection systems to help speed up the growth of the world surge protection devices market. Less developed economies are anticipated to birth opportunities for market players to fight constraints such as high installation cost of surge protection devices. Growth prospects in different areas of the market could answer for other deterrents such as safety issues, unfitting testing, confusing assumptions, and substandard design parameters.
The global surge protection devices market could see a classification on the basis of discharge current. By type, plug-in surge protection devices are forecasted to clasp a leading share in the market, whereas hard-wired surge protection devices could secure a rising demand on the back of the primary need for protection from surges for various equipment. Players in the market are projected to leverage the new revenue pockets created through the industrial segment by end use expected to grow at a faster rate. Initiatives such as Industry 4.0 have increased the need for critical equipment including communication systems, servers, and datacenters, and in turn, the requirement of surge protection devices.
Global Surge Protection Devices Market: Market Potential
Top-rank Irish power management company, Eaton has released the all-new modular device range MTL SD Modular that provides a higher level of transient surge protection available for modular pluggable devices, i.e. up to 20 kA. Valuable distributed control systems and other instruments can be completely and cost-effectively protected by MTL SD Modular. Eaton’s new offering is expected to provide solutions for a more than 50.0% premature electronic equipment failures due to maintenance negligence and surge-related breakdowns.
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Global Surge Protection Devices Market: Regional Outlook
With quarrying, mining, construction, and manufacturing activities on the rise, Eastern Europe is predicted to make the most of the demand for surge protection devices. Since Eastern Europe is one of the low industrial production areas, manufacturing facilities are increasingly transferring their operations to the region in order to fill the gap. Moreover, the strategic initiatives taken in Europe for the purpose of digitally developing manufacturing, IT, and industrial sectors have surged the implementation of networks, systems, and machines based on intelligent information and communication technology (ICT). This is likely to aggravate the demand for surge protection devices.
However, Asia Pacific is projected to register a higher growth on account of urbanizing populations and propelling investments for modernizing infrastructure in nations such as India and China. Major potential foreign direct investment (FDI) gains, capital investment percentage, and a large-scale move toward clean energy to satisfy spiraling energy requirement could help Asia Pacific augment its further growth.
Global Surge Protection Devices Market: Competitive Landscape
Followed by recognitions and awards, agreements and contracts, and acquisitions and mergers, new product developments are envisaged to be a go-to strategy of major players in the international surge protection devices market. Emerson Electric Company, Schneider Electric SE, Siemens AG, and ABB, Ltd. are expected to be the leading companies making their presence known in the market.
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