Category Archives: LED Manufacturing

May 17, 2012 — Barclays Capital’s Asia IT analyst Jones Ku shares details of China’s State Council’s RMB26.5 billion (about US$4.2 billion) subsidy program for household electrical appliances. The program sets aside RMB2.2 billion to promote consumption of light-emitting diodes (LEDs) and “other energy-saving light bulbs.”

The program will be in effect for one year. In addition to LED lighting, it covers energy-efficient vehicles, air conditioners, flat-panel display (FPD) television sets, refrigerators, and more.

There is currently no announcement on when the program will start, though Barclays expects it to be implemented in late June or early July. Ku says it is likely to be similar to the subsidies for energy-saving products that were trialed in Beijing from September 2011-February 2012 (10% of the selling price, with a cap of RMB400), but with the focus expanded to include more cities.

The LED lighting product subsidy has been rumored since November 2011, when China laid out its plans to phase out incandescent bulbs within 5 years. Expectations on the subsidy amount lowered over time (some early estimates were as high as RMB8 billion). The $348M LED subsidy sum discussed may be less than anticipated, though with no details on the per-product subsidies or the format of the cash deployment, estimating the likely impact to China LED demand is difficult. Certain municipal governments may match the subsidies of the central government, lowering the product cost further, Barclays noted in an earlier subsidy assessment.

Barclays looks at a scenario wherein the government subsidizes ~50% of LED bulb cost (similar to the programs deployed on the CFL bulb side several years ago). Assuming an average pre-subsidy price per LED bulb of ~$10, and assuming China accounts for ~20% of the worldwide bulb market, this subsidy would translate to ~69M bulbs or ~4% of China’s bulb demand.

For more information, see Barclays Capital’s report, "U.S. Display & Lighting: Lightfair Highlights Positive End Demand Trends, But Continued ASP Pressure" https://?live.barcap.com/go/publications/content?contentPubID=FC1821997)

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May 16, 2012 — After a surge in 2010 and oversupply in 2011 that suppressed 2012 fab, light-emitting diode (LED) makers will see a leveling out of supply and demand into better equilibrium, according to the NPD DisplaySearch Quarterly LED Supply/Demand Market Forecast Report. Demand will shift from liquid crystal display (LCD)-backlit LEDs to LEDs for lighting.

LED makers faced challenges in 2011, after skyrocketing demand in 2010. In 2011, growth in demand from LCD TV backlights reversed course, due to a combination of slower growth in LED-backlit LCD TV sales and slower growth in chips-per-backlight, due to efficiency increases. The demand for LEDs in LCD backlights did grow slightly, as use in tablet PCs and strong penetration growth in LCD monitors made up for the drop in demand from TV. Growth was also modest in lighting, as the market penetration of LEDs only grew from 1.4% in 2010 to 1.9% in 2011.

At the same time, many new LED suppliers had entered the industry, and were rapidly ramping up production. Measured in standard units of 500µm2 chip size, supply grew by 41% in 2011, compared to only 10% growth in demand. This resulted in a significant oversupply.

“LEDs have been in surplus since the end of 2010, setting the stage for a decrease in LED prices and margins,” said Steven Sher, analyst, NPD DisplaySearch. “As a result of this surplus situation, there has been almost no investment in LED applications, nor any significant capacity increases in 2012. This is resulting in a halving of the supply/demand glut from 2011 to 2012.”

Figure. LED supply/demand for backlight and lighting applications. SOURCE: NPD DisplaySearch Quarterly LED Supply/Demand Market Forecast Report.

Demand from LCD backlights will continue to dominate LED demand until 2013, when it will reach its peak. Due to the growing popularity of new, low-cost direct-LED backlight designs for LCD TVs, the demand for LEDs in backlights will continue to increase through 2013. While the number of LED packages per LCD backlight unit will peak in 2012, continued growth in penetration of LED backlights will lead to slight increase in LED demand in 2013.

By 2014, lighting will become the dominant source of demand for LEDs as price reductions and efficacy improvements drive increased adoption. The penetration of LEDs in lighting will reach 16.8% in 2015, according to the Quarterly LED Supply/Demand Market Forecast Report.

Spotlights and LED street lights will gain higher penetration in lighting due to government incentive programs, such as the 12th Five-Year Plan in China and the LED subsidy policy in Taiwan, as well as continued growth in commercial applications. LED bulbs and fluorescent tubes are growing in Japan due to government incentive programs and energy-saving consciousness, especially following the March 2011 earthquake.

The NPD DisplaySearch Quarterly LED Supply/Demand Market Forecast Report analyzes supply and demand on a quarterly basis for the entire LED industry. From chip prices to LED maker roadmaps, this report gives a clear outlook and reliable forecast of LED supply/demand, along with an analysis of the impacts on pricing. DisplaySearch provides market research and consulting on the display supply chain, as well as the emerging photovoltaic/solar cell industries. For more information on DisplaySearch analysts, reports and industry events, visit http://www.displaysearch.com/.

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May 14, 2012 — Light-emitting diodes (LEDs) are typically manufactured on sapphire (Al2O3) substrates, about 90% of the blue LEDs currently in production. Silicon carbide (SiC) substrates are used for virtually all the remaining 10% of blue LEDs.

Sapphire substrates will see 20-30% demand increase annually for LED fab. The supply of sapphire ingots will increase more than 20% annually, shows Displaybank. Sapphire substrates require a supply chain of sapphire ingot, or boule, growth equipment suppliers, single-crystal manufacturers, and substrate makers that cut sapphire ingots into wafers. One mega trend for the industry, in addition to capacity increases, is larger wafer diameters.

A constraint, says Displaybank, is the lumen efficiency of LEDs made on sapphire substrates. LED efficiency is defined as the multiplication of internal quantum efficiency and external light extraction efficiency. Typical LEDs glow at 60-120lm/W, which should improve to the 120-160lm/W range by 2015. Blue LEDs based on sapphire substrates are limited in efficiency, due to a lattice mismatch between the sapphire substrate and gallium nitride (GaN) LED materials — 16% or more. The smaller the lattice mismatch, the higher internal quantum efficiency can be.

Table. LED-use ingot material properties. SOURCE: LED-use Next-generation Ingot/Substrate Technology and Industry Analysis Report, Nov.2011, Displaybank.

Material Lattice mismatch (%) Growth method Strength Weakness
Sapphire 16 Cz method, Ky, Slow cooling Low price, chemical stability Large lattice mismatch
GaN 0 HVPE, Ammonothermal Homogeneous substrates Difficulty in high-quality crystal growth, high price. Currently in basic research stage.
SiC 3.5 Modified Lely Chemical properties similar to GaN Price, difficulty in large substrate growth, patent (Cree)
ZnO 2.2 Hydrothermal Small lattice mismatch, large substrate possible Long research period, expensive equipment
Si 18 Czochralski Low price, large substrate possible Difficulty in high-brightness manufacturing
         
         

Since sapphire is electrically an insulator, vertical-architecture LED chips are made by removing the sapphire from the chips once the epi process is finished. GaN and SiC substrates can be made conductive, thanks to precise injections of active ions. SiC, GaN, zinc oxide (ZnO) and silicon (Si) substrates are considered as the future LED substrates, thanks to low lattice mismatches.

Cree is currently producing epi-wafers using a SiC substrate. Gallium nitride wafers are expensive, currently used for laser diode manufacturing but not for LED manufacturing. ZnO substrates are less expensive compared to GaN ones, but suffer from volatility issues at high temperatures. LED manufacturing process temperatures must be kept low with ZnO wafers. Si substrates are relatively cheap, and benefit from the long process history of semiconductor manufacturing on Si. However, Si wafers currently offer lower brightness than sapphire-based LEDs. Several companies are developing Si technologies for LEDs.

Displaybank’s report, “Next-generation LED-use Ingot/Substrate Technology and Industry Analysis (Al2O3, GaN, SiC, ZnO)” covers growth methods for sapphire, SiC, GaN, ZnO single crystals and the substrate processing methods. It also covers commercialization efforts on new substrates, and improved sapphire-based LEDs. Learn more at http://www.displaybank.com/_eng/research/report_view.html?id=828&cate=2

May 14, 2012 — Barclays Capital analysts attended Lightfair International, a large, US-based general lighting tradeshow, and gleaned several trends in light-emitting diodes (LEDs) and organic LEDs (OLEDs) for lighting. Data presented at the show points to strong and steady LED lighting demand growth in 2012, though the LED lighting “inflection year” is still in the future.

While utilization rates are still relatively low in LED fabs, many chipmakers are reluctant to convert all of their backlighting-specific (BLU LEDs for display applications) LED tools to lighting-specific production, because they value yields honed for a specific design. Chipmakers told Barclays that they do not want to reconfigure metal-organic chemical vapor deposition (MOCVD) tools unless they are confident that this backlighting-specific production will no longer be needed. This suggests that anticipated LED lighting demand in H2 2012 and beyond will require more MOCVD tool orders, even without higher capacity utilization rates in LED fabs. Gradually improved MOCVD capex, in Q3 2012 and beyond, will be supported by a steady stabilization in LED supply/demand as 2013 approaches.

Barclays observed that LED chips still compete based on price, even among the Tier 1 LED makers, and further cost reductions are needed if margins are to survive. LED component price declines did moderate to an extent relative to last year’s price cuts, but the aggressive pricing trend continues, driven in part by end customers leveraging Tier 3 quality price points in China against Tier 1 and 2 LED makers. Until LED makers reach 80%+ effective yields in the fabs, the distribution of LEDs per run is fairly wide. Chips that do not meet their application’s specs are dumped on the market at a much lower price. Indeed, even in lighting-grade LEDs, there is “no rationality for price points,” according to 1 Tier-1 supplier. The good news for LED revenues is that unit volume growth is offsetting the price cuts.

The quality barrier between Tier 1 and Tier 2/3 LED suppliers continues to hold, with only ~10 LED makers that can reach 100lm/W efficacy levels in mass production, and meet Energy Star, UL, etc., specifications. In step with the luminous efficacy improvements at the chip level, system-level efficacy also continues to increase, with various troffers and luminaries already approaching 100lm/W. Korean LED makers are considering leveraging BLU LEDs for some lighting applications, like linear lighting and troffers, because specifications are similar. As a result, Samsung is becoming a major threat to Tier-1 LED suppliers, longer term, as it focuses on quality.

Also read: As LED patents run out, supply chain value will shift downstream

With LED lifetimes approaching 50K hours, LEDs are no longer the predictors of the lifetime of the full system, and the lifetime of the other components is becoming more prominent. Despite various certifications available, data on the lifetime and reliability at the total system level is still fairly limited.

While still in the early stages of development, OLED lighting was also being exhibited by several suppliers, with Philips and OSRAM appearing to be at the lead from an efficacy and product quality standpoint. Philips’ OLED lighting panels reached 25lm/W this year, with the company aiming for 60lm/W next year, driven by new developments in OLED materials (Philips using RGB stack with combination of phosphorescent and fluorescent materials); new developments in the glass substrate (adding reflective element to the glass composition); and advances in the deposition and processing technology. However, while reaching 60lm/W efficacy would be a big breakthrough, the key from there would be lumen maintenance, which is still very low for the OLED lighting panels currently available on the market. And while some companies suggested that OLED lighting is now moving from a designer/architectural application to a high-end lighting application, based on the product specs and the pricing, Barclays puts OLED lighting ~5-7 years behind LED lighting.

This year’s Lightfair was “almost entirely focused on LEDs,” said Barclays analysts. While LED dominance in new products at the booths is not yet indicative of end market penetration, it highlights the inevitability of LED lighting adoption in the coming years. Most lighting manufacturers and suppliers and LED makers alike see 2012 as a year of steady, strong LED lighting demand growth, though not yet an inflection. The biggest ramp in demand remains in segments where lighting is on for longer than 8 hours per day (streetlights, gas station canopies, retail, hospitality, warehouses). This is aided by the Federal Recovery Act spending on retrofitting public fixtures. Membership in the Solid State Street Lighting Consortium — a Department of Energy (DOE)-sponsored consortium of cities and municipalities looking to upgrade their lighting systems to energy-efficient solutions — has expanded to ~350 members from less than 100 last year. Payback periods for LED installs are compressing — for outdoor lights, LED systems have gone from 50-60% more expensive than non-LED lights last year to ~30-50% more. The payback for replacing non-LED luminaires in many applications is currently 2-5 years, sufficient to ensure funding for many commercial and industrial users. Utility rebates and government subsidies offered in various regions enhance paybacks further.

Many companies at Lightfair indicated that advances in LED chips and components, especially with regard to high efficacy, have lowered the cost of other components in a lighting system, driving down costs.

Learn more about Lightfair at http://www.lightfair.com.

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May 11, 2012 – Marketwire — Bridgelux Inc., developer of light-emitting diodes (LEDs), and Toshiba Corporation, leading semiconductor manufacturer, reported a 1.1mm2 LED chip fabricated on an 8" gallium nitride on silicon (GaN-on-Si) wafer, emitting 614mW, <3.1V @ 350mA. This is the best-reported GaN-on-Si LED performance on an 8” wafer, according to the companies.

Silicon is a less expensive LED substrate than the traditional sapphire materials, and benefits from use in the established, high-volume semiconductor manufacturing industry. Bridgelux has a proprietary buffer layer technology that it claims creates results comprable to sapphire-based LEDs. In August 2011, Bridgelux reported a lumens/Watt (luminous efficiency) record for GaN-on-Si LEDs.

Bridgelux and Toshiba engaged in a joint collaborative agreement earlier this year for LED chips. Further development will target commercialization of the technology, noted Makoto Hideshima, EVP of Semiconductor and Storage Products Company, CPV of Toshiba.

Now, Toshiba is also making an equity investment in Bridgelux, to jointly pursue innovative solid state lighting (SSL) technology. Toshiba’s advanced silicon process and manufacturing technologies will be put to use on Bridgelux’s GaN-on-Si LED chip technology. In October last year, Bridgelux brought in $15 million in financing, following a $50 million Series D round.

The equity investment, coupled with Toshiba and Bridgelux’s development relationship, will help the companies “drive down the cost of solid-state solutions for the general lighting market," said Bill Watkins, Bridgelux CEO.

Bridgelux develops and manufactures solid-state lighting (SSL). For more information, please visit www.bridgelux.com.

Toshiba is a diversified manufacturer and marketer of advanced electronic and electrical products spanning digital consumer products; electronic devices and components; power systems, including nuclear energy; industrial and social infrastructure systems; and home appliances. Website: www.toshiba.co.jp/index.htm.

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May 10, 2012 — In light of “challenging industry conditions” in the light-emitting diode (LED) and photovoltaics (PV) manufacturing sectors, Applied Materials (AMAT) decided to restructure its Energy and Environmental Solutions (EES) segment, according to a Form 8-K filing.

While the restructuring focuses greatly on wafering systems for PV applications (see our sister publication, RenewableEnergyWorld.com for that story), Applied Materials’ roadmap includes “significant reductions in development activities for LED.” AMAT plans to support existing metal-organic chemical vapor deposition (MOCVD) customers — by and large LED makers — but will not be pursuing any new business, noted Barclays Capital.

Barclays lists Samsung, Silan, Toshiba, TSMC, Micron, and IMEC among Applied Materials’ MOCVD customers. However, analysts predict that Veeco and AIXTRON will hold enough market share (90%) in MOCVD to make other entrants minor players.

“Workforce-related actions will be finalized and implemented in accordance with local legal requirements and in consultation with employees and employee representative bodies, as required,” states AMAT’s Form 8-K filing on the EES restructuring. Approximately 250 job positions will be affected.

After AMAT’s Analyst Day in March, Credit Suisse analysts noted that the company had de-emphasized comments on MOCVD.

And one year ago, Barclays and Credit Suisse were skeptical about AMAT’s MOCVD prospects, deeming its entry a “miscalculation” in such a competitive market, where the company would not make “any traction.”

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May 9, 2012 — SEMI presented US Congressman Dave Camp (R-MI) with its 2012 North American Government Leadership Award at the annual SEMI Washington Forum. SEMI’s award recognizes policymakers who show leadership and support for the US microelectronics and photovoltaic manufacturing value chain.

Congressman Camp represents the 4th District of Michigan and has served in the House of Representatives since 1991. In 2009, Representative Camp became the Chairman of the House Committee on Ways and Means, which oversees all tax legislation in the House of Representatives.

SEMI cited Camp’s leadership in extending the research and development tax credit, and efforts to make that credit permanent; support for free trade agreements, including the passage of the U.S-Korea Free Trade agreement; and support of domestic solar energy and solar energy manufacturing.

The SEMI North American Government Leadership Award was established in 2004 to recognize policymakers in the United States that promote pro-innovation policies. Recipients of the award are selected by the SEMI North American Advisory Board, and the award is presented in conjunction with the SEMI Washington Forum, one of the organization’s annual executive meetings with elected legislators and Federal officials in Washington, D.C.

SEMI is a global industry association serving the nano- and microelectronics manufacturing supply chains. For more information, visit www.semi.org.

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May 9, 2012 – Marketwire — SunSun Lighting, a provider of high-performance, energy efficient and low-cost light-emitting diode (LED) lighting technologies, received $30 million in Series B financing from GSR Ventures and Oak Investment Partners and additional commitments from its original angel investors. Oak, a multi-stage venture capital firm, is leading the round. Allan Kwan, a China-based advisor for Oak, is joining the board of SunSun.

SunSun Lighting eliminates the performance and cost trade-offs of current LED lighting technology by offering a complete LED system, including power electronics, housing, packaging, and optics.

"SunSun is committed to shifting the lighting industry to solid state lighting. We offer the world’s first LED lamps that maximize both luminous efficacy and color rendering with the lowest cost. This capital will be used to expand our manufacturing capacity, sales and marketing efforts, and research and development," said SunSun Lighting Founder and CEO Jianning Sun.

The company’s patented PowerXplore technology attains the highest AC/DC conversion rate of 92%, compared to the 85% conversion rate of the nearest competitor. By innovating at the system level, SunSun achieves both high performance and low lifecycle cost, significantly broadening the potential applications for LED lighting technology.

The company will debut its latest product, the MR16 LED bulb, which is universally compatible with AC/DC 12V and all transformers today in Booth 225 at the LIGHTFAIR International architectural and commercial lighting tradeshow and conference.

"There is a huge market for solid state lighting," said Sonny Wu, the co-founder and a managing director of GSR Ventures and Chairman of the Board for SunSun Lighting. "It could be a $300 billion market globally in three years. GSR incubated the company in 2010 when Mr. Sun had an innovative idea of designing the LED lightbulb with a revolutionary new architecture. We were the sole investor in the $10 Million Series A round for SunSun, and continue to support the company given the phenomenal growth opportunities we see," he added.

"SunSun Lighting stands out from the many LED companies we have seen over the years," said Bandel Carano, managing partner for Oak Investment Partners. "We are convinced that SunSun has superior architecture and technology and is well-positioned to scale. Furthermore, we are pleased to partner with GSR on another investment in China, strengthening our strategic relationship with the firm. The combination of GSR’s knowledge of the Chinese market, Oak’s deep domain expertise in clean energy, and SunSun’s technology and leadership team, will help the company realize its tremendous potential."

"We believe strongly in SunSun’s management team, including CEO Sun, and his senior research and development executives," said Allan Kwan, a China-based advisor for Oak. "The team has assembled a compelling value proposition — a superior silicon-based technology approach, a powerful customer base of world-renowned lighting companies, and a world-class manufacturing facility and process," Kwan added.

The global lighting market has shown it is ready for LED technology that meets or exceeds the performance of conventional bulbs while lowering cost. The U.S. Department of Energy estimates that switching to LED lighting over the next two decades could save $120 billion in energy costs in the U.S. alone.

SunSun Lighting is a cutting-edge manufacturer of LED lighting products, based in China’s Jiangsu Province. Founded in 2010, SunSun is committed to shifting the lighting industry to solid state lighting. SunSun eliminates the performance and cost trade-offs of current LED lighting technology by offering a complete LED system, including power electronics, housing, packaging, and optics. By innovating at the system level, SunSun achieves both high performance and low lifecycle cost, significantly broadening the potential applications for LED lighting technology. www.sunsunlighting.com.

GSR Ventures is an early-stage venture capital firm focused on building world-class technology companies in China. The firm invests primarily in the Internet, wireless, green technology and semiconductors sectors. Founded in 2004, GSR has 50 companies in its portfolio and more than $1 billion under management. SunSun Lighting is the firm’s tenth investment in energy efficient companies. For more information, visit www.gsrventures.com.

Oak Investment Partners is a multi-stage venture capital firm and a lead investor in the next generation of enduring growth companies. Since 1978, the firm has invested $9 billion in nearly 500 companies around the world, earning the trust of entrepreneurs with a senior team that delivers steady guidance, deep domain expertise and a consistent investment philosophy. The firm’s five major growth sectors of focus are information technology, internet and consumer, financial services technology, healthcare services and clean energy. For more information, visit www.oakvc.com.

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May 8, 2012 — Light-emitting diode (LED) manufacturing utilization rates are picking up again, with utilization in Taiwan now back up to 70 to 90% of capacity. Companies expect to close in on 100% in a month or two, driven by TV backlight demand, reports Yole Développement senior analyst Eric Virey. Asian producers see demand for general lighting starting to pick up as well, expecting general lighting — mostly replacement bulbs — to account for 10 to 30% of company revenues by the end of the year. “It’s already becoming a commodity product — even before being popular,” says Virey. “It’s now so competitive with so many lightbulb suppliers, though only a few are of good quality, that it’s pushing prices down quickly, so margins are shrinking fast.”

Figure 1. Packaged LED price trends. SOURCE: SEMI.

“In a commodity market — and we think this is a commodity market — the guy with the lowest cost structure wins,” notes Jed Dorsheimer, managing director, equity research, lighting & solar, Canaccord Genuity. “And yield is by far the most important driver of costs.” With best industry net yields still at some 75-80%, and the majority around 50%, there’s plenty of room for improvement, particularly in automating the post epi processing, by using semiconductor industry style automation, steppers, and improving the lift-off, thinning, dicing and sorting processes. Last year’s 50% drop in prices really focused people’s attention on cost structure, and is speeding up the investment in automating these back end of line (BEOL) processes.

Table. Summary of LED package price and performance projections.

Metric

2011

2013

2015

2020

Goal

Cool White Efficacy

(lm/W)

 

 

135

 

164

 

190

 

235

 

266

Cool White Price

($/klm)

 

9

 

4

 

2

 

0.7

 

0.5

Warm White Efficacy

(lm/W)

 

98

 

129

 

162

 

224

 

266

Warm White Price

($/klm)

 

12.5

 

5.1

 

2.3

 

0.7

 

0.5

Notes: Though cost and especially efficiency of LED lighting has improved impressively recently, there are still major improvements necessary to meet the aggressive target price per lumen output needed for wide adoption according to the industry consensus roadmap put together by the US Department of Energy. It figures the cost for warm white packaged LEDs was about $12.50/klm as of last year, and targets a drop to $5.10/klm by next year, to stay on target for $2.00/klm by 2015. Projections for cool white packages assume CCT=4746-7040K and CRI=70-80, while projections for warm white packages assume CCT=2580-3710K and CRI=80-90. All efficacy projections assume that packages are measured at 25°C with a drive current density of 35 A/cm2; Package life is approximately 50,000.(Source: US DOE Solid State Lighting R&D Multiyear Program Plan, April 2012)

The choice of substrate material is naturally the first driver of yield, where it may turn out that high-cost, homogenous gallium nitride (GaN) substrates with very low defect density and potentially high yield could turn out to be a low cost choice, argues Dorsheimer. Silicon substrates seem like a low cost alternative, but even if fully depreciated equipment brings the typical 20% capital cost to zero, and low substrate costs bring the typical 15% substrate cost to zero, lower yields could still make GaN on Si more expensive than sapphire or SiC.

The potential for GaN and Si substrates

LED devices made on silicon now look likely to be able to match the performance of conventional devices on sapphire, reports Virey, as work at a number of labs around the world is closing the performance gap. So the crucial issue is really the cost savings from being able to use highly efficient 8-inch silicon processing equipment. Yole cost simulations show a 50% reduction in die cost is possible, and some companies project as much as 75% savings, at least compared to smaller diameter sapphire, depending of course on yield, on how much the producer has to invest in new facilities, and on how much retrofit is needed to convert a CMOS fab to LED production. With the biggest impact on yields in epi now apparently not from dislocation defects but from bowing during the metal organic chemical vapor deposition (MOCVD) process, fine tuning the thermal properties during epi could potentially bring significant improvement.

But it does open the possibility of an almost fabless model for LED makers who could produce in CMOS foundries. And it could certainly change the industry supply equation. “One CMOS fab probably has enough capacity for the world’s supply of LED die,” notes Virey. GaN-on-GaN should have better yields from less bowing, and has advantages for being able to inject more current to get more light out of a smaller chip area, for high current density applications. But with the leading conventional LEDs on sapphire or SiC now up to 200lm/W efficiencies, closing in on the theoretical limit, the 5 to 10% increase in performance possible with the GaN substrate may not be worth the 10x higher substrate cost. Here again, it’s just a cost game where yield is the critical parameter.

Figure 2. LED chips made on a 2" silicon wafer. SOURCE: Lattice Power.

Lattice Power pushes toward mass production with GaN-on-Si

Lattice Power reports it is now selling commercial LED die from volume production runs of several hundred 2” silicon wafers a day from its Jiangxi, China, fab, and aims to transition to 6” wafers within twelve months. “We’re not in R&D mode anymore, we’re pushing towards mass production,” says CTO Hanmin Zhao. He reports performance, cost and yields in the 2” silicon are similar to 2” sapphire, and reliability and life test have so far shown results similar to sapphire.

Zhao says the company’s solution for designing and then growing the multi-layer buffer layers to counter the lattice and thermal mismatch seems to transition fairly well to 6” wafers, where the advantage of silicon would of course be much more significant. It’s looking at 6-inch because the tools would be affordable, while it needs a partner with an idle 8-inch IC fab to make production on 8-inch silicon economical with the more expensive tool cost, and there are not many idle 8-inch fabs in China. Zhao figures that except of course for the MOCVD equipment, some 70-80% of the CMOS tools could be used with only minor modification.

These speakers will join other industry leaders from Cree, Everlight Electronics, Soraa, Seoul Semiconductor, GT Advanced Technologies, EVGroup, Laytec and more to discuss the potential of disruptive technologies and best options for improving manufacturing yields in LED manufacturing at Extreme Electronics (South Hall) at SEMICON West 2012, July 11, in San Francisco.

And don’t miss the US DOE SSL Manufacturing R&D Workshop 2012, June 13-14 in San Jose, CA, www1.eere.energy.gov/buildings/ssl/sanjose2012.html

SEMI is online at www.semi.org.

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May 8, 2012 — University of Warsaw, Poland, researchers will grow gallium nitride (GaN) materials on a new AIXTRON SE Close Coupled Showerhead (CCS) metal organic chemical vapor deposition (MOCVD) reactor in a 3 x 2” wafer configuration. It will be installed at a dedicated cleanroom facility within the Institute of Experimental Physics of the University of Warsaw’s Faculty of Physics.

Gallium nitride is a compound semiconductor material used increasingly for light-emitting diodes (LEDs) and power electronics, among other applications in defense and commercial applications. New work is integrating GaN and silicon and GaN and diamond.

The University of Warsaw is Poland’s largest university and a leading European academic center. The experimental and theoretical research conducted at the Faculty of Physics is directed at physical systems of all kinds.

The system will be delivered in H2 2012 as part of the project “Physics as the basis for new technologies – development of modern research infrastructure at the Faculty of Physics of the University of Warsaw,” co-financed by the European Union.

The CCS reactor possesses a “good all-round combination of characteristics:” a very stable platform; optimized for the growth of nitride thin films for a range of requirements; with excellent reliability, ease of use and reproducibility, said Professor Roman Stepniewski, University of Warsaw.

“Professor Stepniewski’s team has a worldwide reputation for the quality of their work in advanced semiconductor materials, in particular in growth technology and basic studies of nitrides,” Dr. Frank Schulte, VP, AIXTRON Europe.

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