Tag Archives: letter-wafer-business

EV Group (EVG), a supplier of wafer bonding and lithography equipment for the MEMS, nanotechnology and semiconductor markets, today announced that WIKA Group, a global leader in pressure, temperature and level measurement technology, has placed an EVG HERCULES lithography track system into production for manufacturing pressure sensor devices. The HERCULES system has already been installed and is in operation at WIKA’s fabrication headquarters in Klingenberg, Germany.

The EVG HERCULES system combines spray coat, development, wafer prime and bake/chill modules with a mask alignment and exposure tool in a fully automated production platform. To meet WIKA’s unique high-product-mix manufacturing needs, EVG has implemented several new features to this highly customized system. These include fully automated mask selection, handling and alignment capabilities, which allow users to keep the system in continuous operation while switching out substrate lots that require different geometry masks and carrier sizes for variable customer demands. This mode is also supported by optimized smart scheduling software, which automatically manages process recipes and ensures optimal process flow by pre-calculating the estimated process duration and time of transfer between process steps for each carrier substrate or lithography mask. The smart scheduling software ensures that critical process steps are carried out with repeatable, fixed durations, and can adjust to changes in material or process flow in real time. Benefits include improved process control, throughput optimization and productivity.

“Our business involves the lean production of a wide variety of specialized sensors that include many different materials and design features for customized requirements. As a result, we need manufacturing solutions that are stable, flexible and can be easily adapted to our diverse production needs,” stated Dr. Lorenz A. Kehrer, Sensor Development at WIKA. “EV Group has been our supplier of choice for lithography track systems, and adding their fully automated HERCULES system to our production flow allows us to increase manufacturing capacity and yield to meet the growing demand for our high-quality products from our versatile customers. EV Group’s expertise in providing world-class automated process solutions for MEMS and sensor manufacturing makes them an ideal partner to support our premium production needs.”

“EV Group’s integrated HERCULES system is a key component in our lithography product portfolio not only in the field of nanoimprint lithography but also for our MEMS customers applying photolithography processes,” stated Hermann Waltl, executive sales and customer support director at EV Group. “HERCULES leverages our expertise in mask alignment, resist processing, automation and software engineering to provide customers with a comprehensive future-proof lithography track solution for their volume production needs. Adoption of our lithography solutions, including HERCULES, has been driven not only by commercial applications such as advanced packaging and MEMS, but also by highly specialized applications where the customizable nature of our products coupled with our process and engineering expertise allows us to tailor our solutions to meet each of our customer’s unique requirements.”

According to the latest market study released by Technavio, the global wafer-level manufacturing equipment market is set to post a CAGR of over 4 percent by 2020.

In its release, the company said this research report titled ‘Global Wafer-level Manufacturing Equipment Market 2016-2020’ provides an in-depth analysis of the market in terms of revenue and emerging market trends. This market research report also includes up to date analysis and forecasts for various market segments and all geographical regions.

The report also segments the global wafer-level manufacturing equipment market into three key regions, including APAC, North America, and Europe. Of these three regions, APAC has been the largest contributor to the market, accounting for close to 72 percent market share in 2015. The significant presence of semiconductor IC manufacturers in APAC is one of the major reasons for the high revenue contribution from this region. One of Technavio’s lead analysts from the semiconductor equipment sector, Asif Gani, says, “The increasing adoption of semiconductor devices in IoT applications is driving the semiconductormarket, which will create demand for wafer-level manufacturing equipment. Similarly, with the increasing demand for semiconductor ICs in both the consumer electronics and automobile segments, and also with the growing complexities of semiconductor ICs, the demand for wafer-level manufacturing equipment will see a rise during the forecast period.”

As of 2015, the foundry segment was the largest revenue contributor to the global wafer-level manufacturing equipment market and accounted for a revenue share of almost 63 percent. The primary reason for the market dominance of the foundry segment is the increasing number of fabless semiconductor manufacturers. Technavio predicts the foundry segment to achieve a revenue of over USD 27 billion by 2020, at a CAGR of more than 4 percent.

“The foundry segment is likely to progress significantly over the next five years due to increasing demand for semiconductor ICs, such as logic, analog, discrete, optic, and sensor ICs, which are used in devices such as smartphones, tablet PCs, notebooks, digital cameras, gaming consoles, set-top box, and network switches,” affirms Asif.

Memory segment anticipated to generate over USD 10 billion by 2020The memory segment is expected to generate over USD 10 billion by 2020, posting a CAGR of more than 4 percent during the forecast period. Technology traction and oversupply of DRAM by memory device manufacturers will slow down the expansion of production facilities globally in 2016. Therefore, the market share of this segment will decline in the same year. However, the market is expected to recover post 2016, due to the increasing demand for DRAM and NAND used in smartphones and tablet PCs and a high adoption of 3D NAND. This will indirectly trigger the demand for wafer-level manufacturing equipment during 2017-2020.

High adoption of the fabless business model to hinder growth of the IDM segmentThe IDM segment contributed more than USD 4 billion in 2015 to the global market and this figure is expected to increase to USD 5 billion by 2020, growing at a CAGR of over 2 percent, during the forecast period. However, the market share of this segment will decline as a result of the high adoption of the fabless business model.

IC Insights recently released its new Global Wafer Capacity 2016-2020 report that provides in-depth detail, analyses, and forecasts for IC industry capacity by wafer size, by process geometry, by region, and by product type through 2020.

Researchers estimate that there are about 80,000 earthquakes globally each year, but most are too minor to notice. The Great East Japan Earthquake (a.k.a., 2011 Tohoku Earthquake) and subsequent tsunami that struck east of Sendai on March 11, 2011 caused substantial loss of life and destruction to infrastructure. It was the most powerful earthquake ever to hit Japan and the fifth most powerful in the world since records started being kept in 1900. Many semiconductor fabs, as well as other facilities that support the industry, were significantly damaged by the quake (some were shut down permanently as a result).

Since the earliest days of IC production in Silicon Valley, the IC industry has always had much of its fabrication facilities located in seismically active regions. Moreover, as of December 2015, roughly half of the world’s total IC wafer production capacity was located in seismically active areas (defined as areas having moderate to high risk of being significantly impacted by earthquake tremors).

  • Taiwan and Japan accounted for 39% of global IC capacity in December of 2015. Both countries are considered entirely seismically active, and have large amounts of IC capacity exposed to potential earthquake damage.
  • Even though Southeast Asia is generally considered very active seismically, Singapore and Malaysia are actually considered relatively safe from earthquake damage. In China, Beijing is considered to have moderate-to-high seismic risk, but other cities such as Shanghai, Shenzhen, and Wuxi are considered to be “on solid ground.” Similarly, while the Southern part of France has moderate seismic risk, the Central and Northern areas do not.

As shown in Figure 1, 64% of pure-play IC foundry capacity is located in seismically active regions. Since two of the largest pure-play IC foundries in the world (TSMC and UMC) have such a significant presence in Taiwan, a disastrous earthquake or typhoon in that country would have serious ramifications for the entire electronics supply chain. In fact, because IC foundries have so many different customers and are sole-source producers for such a wide variety of part types, the ramifications of damage to IC foundry fabrication facilities would be much greater than damage done to individual IDM IC fabs.

Figure 1

Figure 1

A few years ago, IC Insights was contracted to perform a proprietary market research report for a large insurance company.  This company wanted to develop a model that showed how much in electronic system sales would be lost if the fabs in Taiwan were shut down for one, two, or three months due to damage caused by an earthquake or typhoon.  When considering only the Hsinchu Science Park, which is home to about 45% of the island nation’s total wafer capacity, it was determined that, for each month of net loss resulting from the Hsinchu fabs being out of operation, a $9.3 billion net negative effect would be exerted on worldwide electronic system sales!

Although the IC industry has always had the majority of its fabrication capacity located in “dangerous” areas, most buyers of ICs don’t give this a second thought.  Ultimately, all that really can be said about the ability to predict devastating natural disasters is that everything is just “fine” until one day it isn’t. However, while these tragic events are impossible to predict, they are not impossible to plan for.  The Great East Japan Earthquake should have been a wake-up call to spur the entire electronics supply chain to create new contingency plans, just in case.

TSMC this weekend announced that the earthquake of 6.4 magnitude which struck southern Taiwan at 3:57 a.m. on February 6, 2016 did not cause any serious personnel injuries nor any structural or facility damage to the Company’s Fab 14 and Fab 6 manufacturing sites in the Tainan Science Park. The earthquake also did not cause equipment to shift position.

Damage to wafers in progress remains under assessment, but TSMC’s initial estimate is that more than 95 percent of the tools can be fully restored to normal in two to three days. The company is deploying personnel from Hsinchu and Taichung sites to support recovery in Tainan, and does not expect the earthquake to affect first quarter 2016 wafer shipment by more than 1 percent. TSMC will soon notify affected customers and will recover any lost production as soon as possible.

Acting spokesperson Elizabeth Sun told Reuters that staff was safe and the firm’s Tainan facilities were structurally intact.

Taiwan’s Investment Commission on Wednesday gave Taiwan Semiconductor Manufacturing Co. (TSMC) approval to build its first 12-inch wafer fab in Nanjing, China.

The Nanjing facility would be able to produce up to 20,000 12-inch wafers per month and would start commercial production of 16 nanometer process technology in the second half of 2018, according to TSMC.

Before TSMC is allowed to send equipment to Nanjing for the 12-inch wafer fab, it must furnish proof that commercial production on the more advanced 10 nanometer process has begun in Taiwan, according to the Investment Commission.

The 12-inch fab project in mainland China is aimed at increasing business opportunities in the world’s fastest-growing chip market but would also have a positive effect on additional expansion in Taiwan, TSMC said in a statement. The firm emphasised that it would own 100% of the plant, which would help TSMC safeguard its intellectual property.

Market analysts told the state-affiliated Central News Agency that they expect TSMC to retain its lead in the Chinese market.

The 12-inch wafer plant, set to be the most sophisticated in mainland China, is poised to hurt the price advantage of local competitors Shanghai Huali Microelectronics Corporation and Semiconductor Manufacturing International Corporation, analysts said.

Sweden-based SiC CVD developer and manufacturer Epiluvac AB has entered into a collaboration with SAMCO, a semiconductor process equipment developer and manufacturer based in Japan, in which Epiluvac will introduce new clients to SAMCO in Sweden, Norway, Finland and Denmark.

SAMCO offers systems and services that revolve around three major technologies: 1) thin film deposition with PECVD, MOCVD and ALD systems, 2) microfabrication with ICP etching, RIE and DRIE systems, and 3) surface treatment with plasma cleaning and UV ozone cleaning systems.

“With this collaboration, Epiluvac and SAMCO are both acting as a one-stop solution,” says Bo Hammarlund, managing director of Epiluvac AB. “We offer our expertise to help customers decide upon the best combinations in terms of processing equipment for WBG materials, including both SiC and GaN materials.”

Since its establishment in 1979, SAMCO has earned a reputation both at home and overseas for dependable systems and reliable service. In order to continue serving the needs of its customers in Europe, SAMCO acquired samco-ucp ltd. in Liechtenstein in 2014, which now offers services and support for the company’s European customer base.

In addition to its main European office in Liechtenstein, SAMCO also operates from several locations in North America and across Asia. The company works with research institutions and manufacturers around the world and offers customizable systems designed to meet the unique needs and goals of its clients.

“Both companies, Epiluvac and SAMCO, have long-standing relations with major players in the quickly-growing market for power electronics,” says Hammarlund. “Many of the processes have to be more efficient in terms of improved yield.”

He highlights the additional need to handle larger wafers during the coming years, pointing to the fact that 8-inch protoypes of SiC wafers are already on the market.

“This rapid development results in a strong request for new, improved equipment and processes which Epiluvac and SAMCO together can offer their customers,” he adds.

New equipment and processes made by Epiluvac and SAMCO in order to meet customer demand, Hammarlund says, include “not just standard solutions, but also custom-designed equipment.”

Entegris, Inc., a developer of yield-enhancing materials and solutions for highly advanced manufacturing environments, announced today the expansion of its liquid filtration/purification analytical science and research and development facility in Suwon, South Korea. As an addition to its existing Korea Technology Center (KTC) facility, the expanded lab includes advanced chemical/water analysis and material characterization capabilities, along with filtration device instrumentation. These new capabilities will allow closer collaboration with local customers to solve specific liquid filtration challenges by providing optimized solutions for their advanced processes.

“Sophisticated analysis of the interaction and compatibility between complex process chemistries and filtration devices are increasingly important as technology nodes advance. We continue to invest in these technologies  ̶  close to our customers  ̶  to optimize the performance of our filters with the unique chemical solutions our customers require,” said Entegris Vice President of Liquid Microcontamination Control, Clint Haris. “Expanding the KTC liquid filter lab allows us to increase collaboration with Korean customers and to integrate new developments into new process solutions faster.”

The expansion represents Entegris’ on-going commitment to serving the Korean semiconductor manufacturing market and its continued effort to work directly with customers on a local level to solve critical issues for advanced technology processes. Entegris is the leading provider of liquid filtration and purification technologies for the most advanced semiconductor applications.

In addition to the expanded analytical and R&D liquid filtration services, Entegris’ KTC also provides wet and dry chemistry development, chemistry formulation and pilot scale-up, on-site metrology with real-time reporting, and microcontamination and liquid filter characterization.

For more information, please visit the Entegris booth at SEMICON Korea, Hall D, Booth #5612, through Friday, January, 29th, or contact your local Entegris representative or visit www.entegris.com.

Samsung Electronics and Apple remained the top semiconductor buyers in 2015, representing 17.7 percent of the market, according to Gartner, Inc. Samsung Electronics and Apple together consumed $59.0 billion of semiconductors in 2015, an increase of $0.8 billion from 2014 (see Table 1).

“Samsung Electronics and Apple have topped the semiconductor consumption table for five consecutive years, but the growth of Samsung’s design total available market (TAM) was lower than the total semiconductor market in 2014 and 2015,” said Masatsune Yamaji, principal research analyst at Gartner. “Samsung and Lenovo, the fastest-growing companies over the last five years, decreased their design TAM in 2015 and the risk of revenue declines from the strongest customers for semiconductor chip vendors is increasing.”

The top 10 companies bought $123 billion of semiconductors, to account for 36.9 percent of semiconductor chip vendors’ worldwide revenue in 2015. This was down from 37.9 percent in 2014, which was worse than the semiconductor industry’s global total decrease of 1.9 percent.

Table 1. Preliminary Ranking of Top 10 Companies by Semiconductor Design TAM, Worldwide, 2015 (Millions of Dollars)

 

 

2014 Ranking

 

 

2015 Ranking

 

 

 

Company

 

 

 

2014

 

 

 

2015

 

 

Growth (%) 2014-2015

 

 

 2015 Market

Share (%) 

1

1

Samsung Electronics

30,989

29,867

-3.6

8.9

2

2

Apple

27,177

29,116

7.1

8.7

4

3

Lenovo

13,743

13,329

-3.0

4.0

5

4

Dell

10,880

10,686

-1.8

3.2

3

5

HP Inc.

15,616

8,634

-44.7

2.6

7

6

Huawei

6,040

7,020

16.2

2.1

6

7

Sony

7,631

6,947

-9.0

2.1

8

Hewlett Packard Enterprise

0

6,473

1.9

9

9

LG Electronics

5,743

5,533

-3.7

1.7

8

10

Cisco Systems

5,817

5,430

-6.7

1.6

Others

216,695

210,684

-2.8

63.1

Total

340,331

333,718

-1.9

100.0

Note: Some columns do not add to totals shown because of rounding.

Source: Gartner (January 2016)

The market decline happened partly because HP spun off its enterprise business, which bumped Toshiba from the top 10. Toshiba’s design TAM in 2015 was $4.6 billion, so the top 10 companies in 2014 (including HP Inc., Hewlett Packard Enterprise and Toshiba) represented $127.6 billion of semiconductors in 2015 on a design TAM basis, to account for 38.2 percent of semiconductor chip vendors’ worldwide revenue.

As the growth of the personal electronic device market continues to slow, the risk of revenue declines from the strongest customers for semiconductor chip vendors is increasing. Many semiconductor chip vendors, especially general-purpose chip vendors, are trying to reduce the dependency on a limited number of extremely large customers, such as Samsung Electronics, Apple and Lenovo, and are making an effort to diversify their sales targets to the fragmented long-tail small customers, so as to stabilize their business growth with a mass-marketing approach.

“Nine of the top 10 companies in the design TAM ranking for 2014 remained in the top 10 in 2015, but seven of the top 10 decreased their semiconductor demand in 2015,” said Mr. Yamaji. “The slowing of Samsung’s design TAM since 2014 should be considered a big trend change. The cycle of an inflated boom and the obsolescence of electronic equipment are becoming faster, and it is also much more difficult for leading companies to maintain their position for a long time. Current winners may not always be the winners in the future.”

More detailed analysis is available in the report “Market Insight: Top 10 Semiconductor Chip Buyers, Worldwide, 2015 (Preliminary).”

According to a new market research report “Thin Wafer Market by Wafer Size (125mm, 200mm, 300mm), Application (MEMS, CMOS Image Sensor, Memory, RF Devices, LEDs, Interposers, and Logic), and Region – Global trend and Forecast to 2022,” published by marketsandmarkets, the market was valued $6.76 Billion in 2015 and estimated to reach $9.17 Billion by 2022, at a CAGR of 3.7% between 2016 and 2022.

Factors such as growth in the semiconductor industry, reduction in the size of electronic devices, growing mobile and consumer electronic markets, and high amount of material saving are key drivers for the growth of the thin wafer market. Moreover, the growing IC industry in China and high adoption of portable devices provide a huge opportunity for further growth of this market.

300mm wafer expected to lead the thin wafer market

The 300mm wafer is widely used in the manufacturing of semiconductor devices due to its high production capacity among all other wafers. This wafer size is expected to exhibit highest growth during the forecast period. It offers the ability to manufacture a large number of devices in a single batch. This is one of the reasons companies are developing their semiconductor devices on this wafer.

The market for application in LEDs expected to grow at the highest CAGR between 2016 and 2022 

The LED application is expected to grow at the highest CAGR between 2016 and 2022. The miniaturization of electronic devices has positively impacted the thin wafer market growth. A thin wafer offers high conductivity and electrical benefits for LED chips. These benefits drive the thin wafer market for LEDs.

APAC expected to hold the largest market share and grow at a high CAGR during forecast period 

APAC accounted for the largest share in the Thin Wafer Market in 2014; this market is expected to grow at the highest CAGR between 2016 and 2022. The growth is attributed to increasing industrialization and urbanization in the region. Further, the increasing semiconductor manufacturing capacity in countries such as ChinaTaiwan, and South Korea are key factors responsible for the increasing adoption of the thin wafer market.

Major players operating in this market are LG Siltronic, Inc. (South Korea), Shin-Etsu Chemical Co. (Japan), Siltronic AG (Germany), Sumco Corporation (Japan), Sunedision Semiconductor Ltd. (U.S.), SUSS Microtec AG (Germany), Lintec Corporation (Japan), Disco Corporation (Japan), 3M (U.S.), Applied Materials, Inc. (U.S.), Nissan Chemical Corporation (Japan), Synova (Switzerland), EV Group (U.S.), Brewer Science, Inc. (U.S.), and Ulvac GmbH (Germany).

This research report categorizes the global thin wafer market based on wafer size, application, and region. This report describes the drivers, restraints, opportunities, and challenges with respect to the thin wafer market.

North America-based manufacturers of semiconductor equipment posted $1.34 billion in orders worldwide in December 2015 (three-month average basis) and a book-to-bill ratio of 0.99, according to the December EMDS Book-to-Bill Report published today by SEMI.  A book-to-bill of 0.99 means that $99 worth of orders were received for every $100 of product billed for the month.

SEMI reports that the three-month average of worldwide bookings in December 2015 was $1.34 billion. The bookings figure is 8.6 percent higher than the final November 2015 level of $1.24 billion, and is 2.8  percent lower than the December 2014 order level of $1.38 billion.

The three-month average of worldwide billings in December 2015 was $1.35 billion. The billings figure is 4.9 percent higher than the final November 2015 level of $1.29 billion, and is 3.2 percent lower than the December 2014 billings level of $1.40 billion.

“Both semiconductor equipment bookings and billings improved in December,” said Denny McGuirk, president and CEO of SEMI.  “Despite softness in the equipment market in the fourth quarter, both annual bookings and billings in 2015 of North American equipment suppliers remained above 2014 levels.”

The SEMI book-to-bill is a ratio of three-month moving averages of worldwide bookings and billings for North American-based semiconductor equipment manufacturers. Billings and bookings figures are in millions of U.S. dollars.

Billings
(3-mo. avg)

Bookings
(3-mo. avg)

Book-to-Bill
July 2015

$1,556.2

$1,587.3

1.02
August 2015

$1,575.9

$1,670.1

1.06
September 2015

$1,495.0

$1,554.9

1.04
October 2015

$1,358.6

$1,325.6

0.98
November 2015 (final)

$1,288.3

$1,236.6

0.96
December 2015 (prelim)

$1,351.8

$1,342.7

0.99

Source: SEMI (www.semi.org), January 2016