Monday, August 3, 2015

Global Market for Transformers to Reach $48.3 Billion in 2019

ELECTRONICS.CA PUBLICATIONS announces the availability of a new report entitled “Global Markets for Transformers“.  The global transformers market is expected to grow to $48.3 billion by 2019, with a five-year compound annual growth rate (CAGR) of 7.3%.  The Asia-Pacific market, the fastest-growing region of the overall market, is moving at a significant 8.1% CAGR.


Tasked with the regulation of voltage output, transformers are critical to the electricity supply chain. Globally, the demand for this technology is driven by the increasing demand for electricity, replacement of older transformers, and environmental concerns, particularly in India and China.


Indeed, the Asia-Pacific region is the largest and fastest growing segment of the global market. Valued at just $13.2 billion in 2013, the Asia-Pacific market is expected to surge to $21.1 billion by 2019. Such rapid growth is attributed to improving economic conditions and the increasing use of the region as a hub for Western markets to outsource the manufacture of their transformers.


Meanwhile, the European and North American markets are projected to grow at a healthy CAGR of 7.2% and 5%, respectively.


The upgrading of existing networks and replacement of older transformers in Western regions offer a huge growth opportunity for the transformer market. This is especially the case for power and traction transformers, which have high performance properties to increase energy efficiency and reduce electricity losses. However, in the longer-term, the developing regions, including China, Brazil, India and others, will create huge opportunities for the transformer market with the increasing demand for electricity and increasing electricity production.


Increasing raw material prices and stricter environmental regulations on carbon emission levels have forced companies to focus on the development of advanced transmission technologies that will comply with current and future environmental regulations. The pressure to develop environmentally friendly transformers is increasing even in the Asia-Pacific and other developing regions.


GLOBAL MARKETS FOR TRANSFORMERS provides an overview of the global markets for transformers and related technologies. It includes analyses of global market trends, with data from 2013, estimates for 2014, and projections of CAGRs through 2019.


 


SAMPLE FIGURE

GLOBAL TRENDS OF THE HYDRAULIC PUMP MARKET BY REGION, THROUGH 2019

($ MILLIONS)


GLOBAL TRENDS OF THE HYDRAULIC PUMP MARKET BY REGION, THROUGH 2019

Global Markets for Transformers



Details of the new report, table of contents and ordering information can be found on Electronics.ca Publications’ web site.  View the reportGlobal Markets for Transformers.


 



Global Market for Transformers to Reach $48.3 Billion in 2019

Global Battery Chargers Market Report


ELECTRONICS.CA PUBLICATIONS announces the availability of a comprehensive global report on Battery Chargers markets. Global market for Battery Chargers is projected to reach US$16 billion by 2020, driven by the growing demand for battery-powered electronic devices and equipment.


As an indispensable accessory for all types of electronic devices and equipment, battery chargers are expected to witness steady demand in line with the trends in the electronics industry. Rising energy storage needs of a wide range of electronic devices used in major end-use markets including automotive, industrial, information technology, telecommunications, and consumer electronics is driving growth in the battery chargers market. Telecommunications represents the largest end-use market for battery chargers. Explosive growth in digital technology and the need to share and acquire information swiftly is boosting demand for compact, computing devices, thereby spurring demand for battery chargers. Increasing sales of smartphones, tablets, laptops, and notebooks which require batteries to function smoothly is expected to boost growth in the market.


The emergence of new classes of batteries with different materials is giving rise to increased demand for sophisticated charging mechanisms, to improve charging speed and ensure safety. With technology advancements infusing a broader range of functional characteristics into smaller and lighter formats, battery chargers market is witnessing continuous flow of new designs with efficient charge circuitry and safe charging techniques that prevent overvoltage, and protect battery and system during charging. Advanced products such as smart chargers and wireless chargers are expected to witness rapid growth driven by the growing mobility needs of modern-day consumers. Growing environmental awareness and voluntary stewardship is helping spur demand for green battery chargers powered by wind and solar energy.


As stated by the new market research report on the United States represents the largest market worldwide. Asia-Pacific ranks as the fastest growing market with a CAGR of 7.5% over the analysis period. Rising standards of living, huge population base, and adoption of mobile phones and electric vehicles represent key growth drivers in the region. In addition to India and China, demand for battery chargers in the region is high in countries such as Australia, Singapore, the Philippines, Malaysia, and Thailand, among others.


Major players covered in the report include Accutronics Limited, Analytic Systems Ware Ltd., Anoma Corp., Best Wisdom Electronics Co. Ltd., Energizer Holdings Inc., Exide Technologies, Ferro Magnetics Corporation, Flextronics, FRIWO AG, HindlePower Inc., Minwa Electronics Co. Ltd., Motor Appliance Corporation, Panasonic Corporation of North America, Phihong USA Corporation, Powerbase Industrial (HK) Ltd., Saft S.A., Salcomp Plc, Schumacher Electric Corporation, Scud (Fujian) Electronics Co. Ltd., Uniross Batteries S.A.S, and Yuasa Battery Inc.


The research report titled “Battery Chargers – Global Strategic Business Report” provides a comprehensive review of market trends, issues, drivers, mergers, acquisitions and other strategic industry activities of major companies worldwide. The report provides market estimates and projections for all major geographic markets including the US, Canada, Japan, Europe (France, Germany, Italy, UK, Spain, Russia, and Rest of Europe), Asia-Pacific (China, India, and Rest of Asia-Pacific), Latin America (Brazil and Rest of Latin America) and Rest of World. End-use sectors analyzed include Automotive, Industrial, Information Technology, Telecommunications and Consumer Products.


Battery Chargers Market ReportDetails of the new report, table of contents and ordering information can be found on Electronics.ca Publications’ web site. View the report: Battery Chargers – Global Strategic Business Report.




Global Battery Chargers Market Report

Saturday, August 1, 2015

Global Semiconductor Industry is Headed for a Monumental Transformation to Usher in IoT Revolution

The upcoming IoT Revolution hopes to connect 50 billion devices by end of 2020. The IoT Revolution aims at transforming Retail Sales industry, Aerospace and Defense IndustryWholesale Distribution industry, Utilities industry, Oil and Gas Industry, Mining and Metal Industry, Industrial Machinery and Component manufacturing, Chemical Industry, Automotive Industry, etc.


Every aspect of IoT seems to be revolutionary. There is also a good chance of IoT Revolution to improve the quality of life for entire human society. While the technology has an important role to play in creating ample job opportunities in global economy, if care not taken by policy makers, IoT market growth would be restricted.


Internet of Things has an  important role to play in the progress of today’s knowledge based economy. If the global economy cannot transition to a sustainable economy, IoT Revolution cannot become a reality. Additionally, IoT Revolution should not only come through increase in consumer purchasing power that gives increased consumer demand for goods but it should also ensure that the higher purchasing power comes through hard work and not by means of providing any dole-outs.


The IoT Revolution is very much feasible for every economy in this world as long as the playing field is leveled and the competition between them is fair. A true free market economy is essential for bringing about this next big thing. These free markets should be beneficial for not only producers but also consumer of goods. Sustainable manufacturing is essential in order to transition to next generation ecological fab. IoT Revolution also has the capacity to bring the environmental pollution under control by means of ushering a balanced economy which results in neither overproduction of goods nor underutilization of available resources.


For IoT Revolution to happen, wide range of macroeconomic principles have to be applied to existing industrial policies that helps transition the top-down hierarchical corporate culture to a more flatter organization having less rigid hierarchy. Such an organization with decentralized power and authority has a capability to increase collaboration amongst its employees through a consensus in decision making process as well as boost the efficiency of organization in order to be able to contribute towards a strong local economic development. While ensuring a success of IoT Revolution, care needs to be taken that the trade policies do not encourage counterfeiting of electronics. Majority of IoT applications will be human centric and hence counterfeits have to be not only minimized but completely eliminated from supply chain to avoid life-threatening situations from the use of IoT products.


Both producers and consumers have to prosper for a robust growth of IoT sector. The worker productivity is the main source of supply while wages are the main source of demand. If productivity rises faster than wages, then supply rises faster than demand. This results in overproduction and forces the manufacturer to fire workers. Producers are the suppliers of goods, and consumers generate the demand for these goods. Consumer demand, being dependent on wages, is sustainable only if the consumers as workers earn higher salaries. If the wages of consumers do not catch up with increased supply of goods, the supplier of goods is unable to sell all that he/she has manufactured. Hence, the monetary policy of any country needs to ensure that wages catch up with productivity. By ensuring wages catch up with productivity; it is very feasible to create plenty of jobs in economy and maintain the incentives to work hard. In this way, there is no need of excessive government spending and hence deficits, which would also reduce the direct and indirect taxes on citizens. A lower income tax on citizens would also further boost citizens’ consumer purchasing power in economy.


A sustainable economy should not only create more manufacturing jobs but also creates a number of service sector jobs catering to these manufacturing facilities.  The virtual offshoring of most facilities from the United States in order to increase corporate profits, has produced the progressive diminishing of the employment base to most Americans in both intellectual and economic terms.  The increasing Mergers and Acquisitions happening in semiconductor industry are not going to help but hurt this industry. Indeed, the lack of liquidity in the last seven years has not helped this situation either and hence the ownership of companies catering to the IoT market should be with the employees of those companies, as being the arbiters of their chosen investment locales and facets.


While ushering the IoT Revolution, businesses can play an important role in eliminating global poverty and unemployment through a productive use of technology. An unproductive use of any technology makes the progress of that technology unsustainable and hence ‘Sustaining Moore’s Law’ advocates a productive use of technology to eliminate the present uncertainty of ushering an IoT revolution due to a global macroeconomic crisis. It would help sustain the progress of Moore’s law and will bring an end to wage stagnation, and hence, the living standard will start to rise for all.


As is common knowledge, all indications are that the Western economy is in for a very rough ride, in particular because the Western individualized world has sacrificed so much of its social, cultural, and industrial base to external interests, and in the process has outsourced large chunks of its technical skills and know-how to foreign agencies and lands. Life on other continents on the other hand seems to have retained more of a traditional structure. Therefore it seems probable that a sinking global economy and the eventual collapse of crony capitalism, as we know it, would harm the First and Second Worlds infinitely more than the Third. However,  ‘Sustaining Moore’s Law’ presents a blueprint to usher in the next big thing of IoT Revolution for not only developed economies but also for developing economies like India.


The semiconductor industry in United States has been on the downhill along with many others. It is well known that manufacturing is fast becoming an endangered species in the United States, employing less than 10 percent of the labor force now. Semiconductors have been hit especially hard by low-wage competition from China and some other Asian nations. Dallas/Maxim just announced they are closing their production facilities in Dallas and the Failure Analysis lab along with it. Many of my ex-colleagues that were layed off from Kilby/Process Development a year ago have not found a job yet. Qualcomm is laying off 15% of its workforce and the Broadcom/Avago merger is going to create a wave of restructuring layoffs too. Hence, the Uncertainty of ushering about an IoT Revolution seems insurmountable to the industry at large.


Internet of Things


A Management Crisis in High Tech Industry


Since the 1960s the semiconductor industry has been a driver of global economic growth and social change. Each country involved wants a large, viable semiconductor industry that provides high paying jobs. The ongoing technical and managerial crises needs a detail analysis to examine the industry from a macroeconomic perspective, helping readers understand how global competitive advantage can be won or lost unless good macroeconomic policies are implemented. This study is very relevant in today’s world and the highly dynamic semiconductor industry, since things move so fast in this digital age. Though a US-centric book, it will be very useful for the developing world as well. There is also a chapter dedicated to semiconductor manufacturing in developing economies like India.


Global Semiconductor Industry Is Headed For A Monumental Transformation To Usher In Iot RevolutionThis is the first book for which world renowned Professor of Economics and author of six international best sellers, Professor Ravi Batra, has written the Foreword. Professor Batra considers the solutions presented in this book to be both monumental as well as practical to implement. In 1978, To the laughter of many and derision of a few, Professor Ravi Batra authored a book “The Downfall of Capitalism and Communism: A New Study of History“. While his forecasts about collapse of communism earned him a gold medal of honor from Prime minister of Italy, he thinks that unless US Capitalism reforms towards a free market economy, US Capitalism is going to meet the fate of Soviet Communism due to huge concentration of wealth in the economy.


It is another interesting book as it not only focuses on technological growth but also offers solutions to make that growth sustainable by a sustainable macroeconomic growth. The book is published by Morgan and Claypool Publishers and will be available as an e-book as early as end of August 2015.


By Apek Mulay.



Global Semiconductor Industry is Headed for a Monumental Transformation to Usher in IoT Revolution

Friday, July 31, 2015

Trending Terms Covering the Newest Emerging Technologies

What’s relevant for today’s OEM, EMS or ODM Company?


Each year, a new slew of terms and definitions become common place in the manufacturing process. To meet these needs, T-50 Revision M, Terms and Definitions for Interconnecting and Packaging Electronic Circuits, delivers users the most up-to-date descriptions and illustrations of electronic interconnect industry terminology. It is a dynamic standard that adapts to the industry to provide the most thorough dictionary in the industry.


PURCHASE IPC T-50M NOW


IPC-T-50M

Terms and Definitions for Interconnecting and Packaging Electronic Circuits


 


IPC T-50M brings over 150 new terms, while eliminating out-of-date terminology in order to provide a streamlined standard that focuses on the trending language of the electronics industry. This revision includes terms often cited in other standards, such as:


  • Conformal coating

  • Statistical Process Control

  • Stencil Design

Stay up to date with the trending terms covering the newest emerging technologies. Prepare for tomorrow’s discussions by purchasing T-50M today.


 


 



Trending Terms Covering the Newest Emerging Technologies

What Benefit Do IPC Standards Have For The Electronic Hardware Supply Chain?

For more than 50 years, IPC has developed industry standards for the production of electronic hardware. After having been long considered North American standards, IPC standards over the past two decades have spread globally. The question now is: what benefit do IPC standards have for the electronic hardware supply chain?


Providing answers to that question, several companies in Europe representing electronic design, CAD, bare board production, assembly and soldering explain how they use IPC standards in their daily business routines.


This first article covers electronic design/CAD company, GED GmbH, located 30 km southeast of Cologne in Germany.


First experience with IPC standards


GED offers PCB design and engineering and, through the assistance of external subcontractors, bare board, assembly and test services. Currently the company has 14 employees and CAD systems from six different layout vendors. With these resources, the company produces 160 new PCBs and 80 updates per year for rigid, flex, flex-rigid and HDI boards for customers in Germany, Italy, Sweden, the Netherlands, France and the Czech Republic.


From its establishment in 1986 to the middle of the 1990s, the company used its customers’ internal standards from companies such as Siemens, Philips, Rheinmetall and Thyssen. This meant that a different standard was used for every customer. An example of this frustrating situation, says Hanno Platz, owner and managing director, “was when we received an inquiry from Hewlett Packard in Germany with an attachment of 100 pages of requirements for the PCB in question.” At that time, the staff did not know about IPC and its standards. In 1995, the company had a U.S. customer that demanded that the assembly and soldering of a back plane, developed and produced in Germany, be conducted at their U.S. premises according to IPC-A-610, Acceptability of Electronic Assemblies, Class 3 acceptance criteria.


Technology focused on standards


GED found IPC standards through FED, a local German organization with a long-time relationship with IPC, and bought first set of IPC standards. The back plane could now be designed and produced according to IPC standards. Having standards from different areas of the production chain that linked together was a new and positive experience for the company. The staff now regularly discusses how to use IPC standards in their own designs as well as in the purchasing process of bare boards plus assembling and soldering.


Currently, all employees have passed CID (Certified Interconnect Designer) and CID+ (Advanced Certified Interconnect Designer) and are familiar with nearly all IPC standards for electronic design and CAD. All of their order acknowledgments for designing a complete PCB include the following statement, “If nothing else has been agreed upon, PCBs will be manufactured according to IPC standards and its Class 2 acceptance criteria.”


At GED, designers also create PCB layouts. Today, most new PCBs are HDI (high density interconnected) with a high SI (signal integrity) level including high EMC (electromagnetic compatibility). IPC standards have an important influence on these complex boards. The company uses the following IPC standards in their design work:


  • The IPC-2220 PCB design series for mechanical properties of track, isolation and PTH (plated-through holes)

  • IPC-2223B, Sectional Design Standard for Flexible Printed Boards for flex-rigid PCBs and questions like adhesive type, placement of a flex layer into the rigid part and coverlay dimensions

  • IPC-7351A, Generic Requirements for Surface Mount Design and Land Pattern Standard for footprint (land) design, which is even more important than before because of lead-free processes, especially when components like CSPs (chip scale packages) and QFNs (quad flat no leads) are specified in the BOM list.

  • IPC-A-610F, Acceptability of Electronic Assemblies for acceptability of solder joints and assemblies

  • IPC-2251, Design Guide for the Packaging of High Speed Electronic Circuits and IPC-2141A, Design Guide for High-Speed Controlled Impedance Circuit Boards.With the need to comply with EU Directive 2004/108/EC, and its requirements for high EMC on all PCBs placed in the EU market, SI has become more critical. These standards assist GED designers in selecting microstrip or stripline build up for impedance.

Tool with benefit


The company’s ISO 9002 certification states that Deutsches Institut für Normung e.V. (DIN) and IPC standards serve as the foundation for quality work. IPC standards are required as a tool when the company uses external vendors for bare boards and assembly. For all potential suppliers in Europe, the staff conducts company visits that include an audit of the bare board supplier and their use of IPC standards, especially the IPC-6010 board manufacturing series and IPC-A-600H, Acceptability of Printed Boards. According to Platz, “After visiting hundreds of bare board suppliers, we’ve concluded that the majority of suppliers understand IPC standards but very few can make boards according to IPC Class 3 acceptance criteria. This is absolutely something that needs to improve.”


According to GED, IPC standards are the basis of electronic product quality and reliability. In the design process, technical parameters like choice of base material, pad sizes, spaces/traces and isolation distances between layer and component pitches are constant considerations. The use of IPC standards makes it much easier to find solutions. Without IPC standards, the alternative can involve high repair/touch up costs and lots of scrap but also an imperfect electronic product from a quality and reliability point of view. In some cases, this has been a very costly experience for the company’s customers that have not used IPC standards. Platz gives two examples:


Example 1: Working to improve EMC capabilities on a PCB, a designer placed via holes directly in surface mount pads. The result was years of solder and wetting problems with only an 80 to 90 percent yield and difficult repairs. The designer, by not following the standard, placed vias in a pad that was too tight. The profit loss over several years was estimated to be 50,000 to 60,000 Euros. The company was ultimately able to solve the problem by redesigning via hole placement that improved EMC properties.


Example 2: A complex 12-layer HDI board with BGA components on both sides needed to be manufactured using a lead-free process. After the transfer, yield went down to 50 percent. The reason: wrong design parameters and bad layer configurations were used and pads too small for via holes were created. With a higher lead-free solder temperature, many irreparable barrel cracks were created in via holes. The total loss due to the 50% yield in the lead-free process was more than 100,000 Euros.


For GED, IPC standards have been an invaluable tool over the past two decades. IPC standards not only save money, they also make it easier to communicate with bare board suppliers and assembly companies across the world. IPC standards can significantly reduce mistakes and improve end-product quality and reliability.



What Benefit Do IPC Standards Have For The Electronic Hardware Supply Chain?

Wednesday, July 29, 2015

The Global Printed Electronics Market Sector Witness Miniaturization

The miniaturization of electronic devices is an upcoming trend in the global electronics market, specifically in the category of printed electronics. The technological advancements which are the primary key drivers of miniaturization of electronic devices have led the market with their efficient developments resulting in more compact and flexible electronic devices.


In that case, printed electronics solutions are considered as the perfect solution for miniaturization in the industry. With the help of this technology, giant companies in the electronics industry can now develop multifarious devices varying in different sizes and materials. Printed devices are robust, efficient in performance – consuming low power, and moderately priced. As a result, worldwide manufacturers have been increasingly approving of printed electronics technology for their particular industrial products.


There are many companies that act as the major key players in the Global Printed Electronics industry, and they are namely NTERA Inc., T-Ink Inc., Novacentrix., and Conductive Inkjet Technology. Speaking of the major drivers in the industry, the increasing need for eco-friendly electronic products is another key driver in the domain of electronics. As printed electronic products use non-hazardous raw materials for producing different electronic devices, it becomes more suitable for the technology to get incorporated with other eco-friendly electronic products.


The Global Printed Electronics market is expected to revolutionize the industry by introducing innovative and low cost products that can be manufactured with traditional silicon-based electronics techniques. The drivers for global printed electronics market are low manufacturing cost and its applicability in variety of substrates. The global printed electronics market is expected to grow at an estimated CAGR of 38% from 2012 to 2018. In Printed electronics industry, screen printing captures maximum share owing to its wise deployment whereas most applications are available in printed photovoltaic (PV) due to the rising demand for alternative energy sources globally.


Learn more about printed electronics market and publications that provide informed perspective and relevant analysis of emergent technologies.



The Global Printed Electronics Market Sector Witness Miniaturization

Global Market for Optical Network Semiconductor Components to Reach $7.6 Billion in 2019

ELECTRONICS.CA PUBLICATIONS announces the availability of a new report entitled “Optical Network Components: Global Markets”.  This study reveals that the ongoing migration from lower speed to higher speed connections is providing optical network component suppliers with a recurring revenue stream. Optical network semiconductors will witness an increase from $6.4 billion in 2014 to $7.6 billion in 2019, registering a 3.2% rise in compound annual growth rate (CAGR). The result is that optic components will continue to be an area of prime interest to silicon suppliers.


Advances in wafer and silicon technology have enabled chip manufacturers to squeeze complex functions onto much smaller spaces. They have also been able to put increased functionality into these chips. As a result, optical components continue to be an area of prime interest for semiconductor suppliers. These new semiconductors offer users a number of benefits— more functionality, simpler deployment, and support for higher speed.


Businesses and individuals have developed new applications to take advantage of high-speed, multimedia-friendly transmissions. In the healthcare industry, high-speed optical connections are dramatically improving patient care. Medical imaging is becoming more granular and new applications are emerging. In the data center, optic connections are altering the design of IT systems. Consolidated systems are becoming more common and cloud computing will gain demand.


Optical Network Semiconductor Components: Global Markets

GLOBAL OPTICAL MARKET SEGMENT REVENUES, 2013-2019 ($ MILLIONS)


Optical Network Components: Global Markets analyzes and forecasts market trends in each segment of the optical semiconductor market, delineates technology trends, and identifies market leaders. Forecasts are presented for user requirements, current buying patterns, and expenditure trends from 2014 through the year 2019.


 


 


Details of the new report, table of contents and ordering information can be found on Electronics.ca Publications’ web site.  View the report: Optical Network Components: Global Markets.


Optical Network Semiconductor Components Market – Partial List of Tables


Table 1 : IP TRAFFIC PER MONTH, THROUGH 2018


Table 2 : IP TRAFFIC BY MARKET SEGMENT PER MONTH, THROUGH 2018

Table 3 : PER PORT WLAN PRICING TRENDS, THROUGH 2019

Table 4 : FORECAST FOR MARKET SHARE OF OPTICAL COMPONENTS BY CATEGORY, 2014 AND 2019

Table 5 : FORECAST FOR GLOBAL MARKET FOR OPTICAL COMPONENTS BY PRICE AND REVENUE, THROUGH 2019

Table 6 : TOP FIVE OPTICAL COMPONENT SUPPLIERS, 2019

Table 7 : NUMBER OF INTERNET USERS WORLDWIDE, 1993 TO 2014

Table 8 : GLOBAL INTERNET BACKBONE TRAFFIC PATTERNS, 1990-2014

Table 9 : INTERNET USAGE STATISTICS BY WORLD REGION, 2012

Table 10 : WIRELESS USAGE PATTERNS BY TYPE, 2014

Table 11 : CELLULAR NETWORK SUBSCRIBER GROWTH, 2010-2014

Table 12 : TOP TEN WIRELESS CARRIERS BY NUMBER OF SUBSCRIBERS, 2014

Table 13 : SONET/SDH DATA RATES AND LINE SPEEDS

Table 14 : STRUCTURE OF AN ATM CELL

Table 15 : GLOBAL MARKET FORECAST FOR TELECOMMUNICATIONS OPTICAL COMPONENTS, THROUGH 2019

Table 16 : TOP FIVE TELECOMMUNICATIONS OPTICAL COMPONENTS SUPPLIERS, 2014

Table 17 : GLOBAL MARKET FORECAST FOR 100G TELECOMMUNICATIONS OPTICAL COMPONENTS, THROUGH 2019



Global Market for Optical Network Semiconductor Components to Reach $7.6 Billion in 2019