Refocus design challenges to move LED lighting forward

At the recent 2013 Solid-State Lighting (SSL) Manufacturing R&D Workshop organized by the US Department of Energy (DOE), I called upon the DOE to sponsor R&D competitions with the intent of discovering new sustainable materials and fabrication methods. Innovations in sustainable design...

At the recent 2013 Solid-State Lighting (SSL) Manufacturing R&D Workshop organized by the US Department of Energy (DOE), I called upon the DOE to sponsor R&D competitions with the intent of discovering new sustainable materials and fabrication methods. Innovations in sustainable design may lead the lighting industry to achieve radical cost reductions not possible with our current technology paradigms.

I proposed two possible R+D challenges similar in spirit to the L Prize program. The first challenge is to design a complete luminaire — from electrons to photons — to meet a stringent life-cycle analysis such as the Cradle-to-Cradle Certification program. Such an “L Prize LifeCycle” award would stimulate entrants to reduce toxicity, design for end-of-life repurposing, and to reduce supply chain complexity. The second challenge is to generate the most lumen output from the least mass, normalized against output, efficacy, and other performance requirements. Such an “L Prize FeatherWeight” award would dare entrants to reduce material consumption, fixture size and complexity, and secondary transport and handling costs.

Notice that all the benefits listed above from these sustainable R&D challenges lead to cost savings. The notion that sustainable design can lead to significant cost reductions is counterintuitive for many, because most manufacturers tasked with greening their products usually start with their existing product lines, which are rooted in decades of decidedly non-sustainable design, materials, and assembly methods. This situation has only become worse with the transition to digital lighting products. LED lighting has been piggy-backing on the technical paradigms of the consumer electronics industry, such as FR4 printed circuit boards and surface-mount technology (SMT) assembly. This synergy leads to a scale and style of manufacturing better suited for producing cheap audio players than for supplying the robust and messy needs of building construction sites.

Moreover, this reliance on the consumer electronics industry has unfortunately sent large percentages of SSL manufacturing straight to Asia. Stimulating local manufacturing, especially in support of the construction industry, should be straightforward. Anybody who’s been on a construction site knows that fragile electronics with 16-week global lead times are exactly the opposite of what construction managers need from their suppliers.

While the lighting industry has spent the last decade coming to grips with the disruptions caused by LED lighting, the architecture and construction industries have experienced their own disruptions. Building information modeling, parametric design, digital fabrication, and aggressive environmental certification programs have shifted building construction to a heavily mass-customized approach with the use of more bio-friendly materials. The current paradigm of PCB-based LED electronics seems a poor long-term fit with these macro industry trends, which leads to the question: Is the lighting industry developing the technologies needed to support these advances in the construction fields?

Competitions like the proposed “LifeCycle” or “FeatherWeight” challenges will broaden the perspectives of the modern lighting industry and perhaps introduce radical new methods of fabricating lighting systems — methods that may not fit neatly on current technology development roadmaps. Such R&D challenges may also open innovation in the lighting industry to secondary partners — such as raw-goods manufacturers, equipment suppliers, university research programs — partners who are not directly capable of meeting a narrowly-defined end goal such as manufacturing a more efficient A-lamp.

With its long-term vision and patience, the DOE should continue to drive the lighting industry — even acknowledging all the amazing advances we’re currently enjoying — by challenging the status quo with smartly abstracted goals of sustainability to stimulate manufacturers and research organizations to explore dramatically different technical paradigms. The results may lead to unexpected but critically important advances in how we conceive of lamps, luminaires, and systems.

Refocus design challenges to move LED lighting forward

Cree awarded $30 million tax credits to expand production of LED lighting

Cree Inc. will receive $30 million in federal tax credits to expand its manufacturing footprint in Racine County as well as in Durham, N.C., the U.S. Department of Energy said Thursday. The company’s expansion includes the purchase, installation and modification of new machinery that will allow C...

Tax-Credits

Cree Inc. will receive $30 million in federal tax credits to expand its manufacturing footprint in Racine County as well as in Durham, N.C., the U.S. Department of Energy said Thursday.

The company’s expansion includes the purchase, installation and modification of new machinery that will allow Cree to produce advanced LED lighting systems.

“With this project, Cree is taking the next step toward its goal of making traditional lighting products obsolete through the use of advanced LED technology with significant estimated annual savings,” according to the department.

Cree, based in North Carolina, acquired Wisconsin-based Ruud Lighting and its BetaLED division in a 2011 acquisition. Several months later the company announced plans for an expansion of its Sturtevant factory and distribution center.

The tax credits were part of $150 million in advanced energy manufacturing tax credits announced Thursday.

The new round of credits was announced to make use of credits that were not used by previously selected companies, according to the Energy Department.

The credits are designed to aid in the production of equipment used in clean energy technologies, from energy efficiency technologies like LED to wind and solar.

“Cost-effective, efficient manufacturing plays a critical role in continuing U.S. leadership in clean energy innovation, and the tax credits announced today will help reduce carbon pollution from our vehicles and buildings; create new jobs and supply more clean energy projects in the United States and abroad with equipment made in America,” said Energy Secretary Ernest Moniz in a prepared statement.

Cree had previously announced a $24.5 million expansion in Sturtevant, adding 208,000 square feet to house LED lighting assembly lines and an expanded distribution center.

The company committed to creating 469 full-time jobs from the expansion, and received state and local incentives valued at more than $8 million.

About Cree, Inc.

Cree-LED-logo

Cree, Inc. is a global, industry-leading manufacturer of lighting-class LEDs, LED lighting technologies, and semiconductor solutions for radio frequency (RF) and power applications. Cree is paving the way for the LED lighting revolution by producing long-lasting, energy-efficient LED lighting, rendering traditional technologies obsolete.

Cree’s LED Components and Modules division includes the market’s brightest and most reliable lighting-class LEDs, including the Cree XLamp® LED portfolio. By featuring light that is both efficient and beautiful, Cree LED components and modules offer lighting manufacturers and designers high-performance LEDs and LED modules that lower system cost.

Cree leads the industry in brightness and reliability for power LEDs with its XLamp LED family. Through XLamp LEDs, Cree is enabling the lighting industry with efficient LED light. With the largest family of high-performance, commercially-available LEDs, Cree has the right LED for your design.

Cree LED modules provide a simple solution for lighting designers and manufacturers to adopt best-in-class LED lighting, accelerating time to market and lowering system cost. For more information, visit www.cree.com.

Cree awarded $30 million tax credits to expand production of LED lighting

DOE Publishes New Report on Dimming LEDs with Phase-Cut Dimmers

DOE has published a new report, Dimming LEDs with Phase-Cut Dimmers: The Specifier’s Process for Maximizing Success. The report was created in response to issues raised about dimming by energy efficiency organizations and specifiers, and is based on experience from CALiPER testing and...

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DOE has published a new report, Dimming LEDs with Phase-Cut Dimmers: The Specifier’s Process for Maximizing Success. The report was created in response to issues raised about dimming by energy efficiency organizations and specifiers, and is based on experience from CALiPER testing and GATEWAY demonstrations.

While progress has been made in the dimming capabilities of LED luminaires with carefully matched dimming systems, challenges remain with compatibility and performance of LED replacement lamps and dedicated LED luminaires on existing phase-cut dimming systems, which dominate the installed base of dimmers. The new report reviews how phase-cut dimmers work, how LEDs differ from the incandescent lamps these dimmers were originally designed to control, and how those differences can lead to complications when attempting to dim LEDs. Such complications are often due to incompatibility between the LED source and the dimmer, rather than to any shortcomings in the LED source itself.

The report provides both general guidance and step-by-step procedures for designing phase-controlled LED dimming on both new and existing projects, as well as real-world examples of how to use those procedures. The general guidance aims to reduce the chance of experiencing compatibility-related problems and, if possible, ensure good dimming performance.

Specifiers should also consider alternatives to phase-control dimming for LED sources, such as digital addressable lighting interface (DALI) or even wireless approaches. While they, too, have their pluses and minuses and typically cost more, separating the control signal from the AC mains voltage may result in higher levels of performance, more predictability, and fewer headaches.

DOE Publishes New Report on Dimming LEDs with Phase-Cut Dimmers