Research Tracker

The objective of this project to develop and commercialize white and amber OLED lighting solutions that are uniquely tailored to the health care industry, ranging from hospital to senior assisted living centers. This project will include five main deliverables: 1) Voice of customer (VOC) exploration with hospital and healthcare personnel including nurses, facilities and other medical staff to identify lighting applications in which OLED would provide unique value. 2) Tuning amber OLED panels, if necessary for large scale production specifically for healthcare, 3) Designing and fabricating OLED fixture prototypes based on VOC 4) obtaining feedback from medical staff on prototypes including performance and effects on workflow, patients or other concerns and define launch product 5) establishing path for full commercialization of product(s).

NYSERDA has been a strong supporter of ASSIST since its inception in 2002. This has helped New York State to remain on the cutting edge of this quickly advancing technology. To continue to help to prepare New York State manufacturers, consumers, lighting specifiers and decision-makers for the solid-state lighting market, the LRC is seeking to continue NYSERDA's membership in ASSIST and is seeking funding from NYSERDA to support the continued development of metrics and standardized measurement methods for LEDs, LED systems, and LED luminaires.

The Lighting Research Center at Rensselaer Polytechnic will create a prototype office desktop lighting control. The device will be a combination of a motion sensor, photosensor, manual dimmer or switch, and wireless transmitter. It will sit either directly on a desk surface or be mounted to the top of a computer monitor, and will control the lighting in private or open offices. It will be paired with a receiver that will control the luminaire(s) that are nearby.

Project will develop the mechanical and electrical OLED integration technologies to enable large area ceiling or wall mounted fixtures to be fabricated. These OLED array fixtures will provide contiguous panels of light with minimal gaps between OLED sections and very low profile to be readily mounted on walls, ceiling or office furniture components. The project will focus on innovations in the following areas to integrate OLED into effective products and applications: A power and wiring architecture that efficiently down converts voltage level, conforms to safety standards, and facilitates OLED fixture installation. "Thin and compact" constant current driver architecture to complement the OLED panel construction "Thin and compact" mechanical and electrical connection scheme to combine an array of panels to attain a contiguous light source

Under this project, OLEDWorks will develop the quality and reliability system for a high efficiency white OLED light product (greater than 60 lumens per watt) that will serve as platform for a wide variety of lighting applications and solutions. The project will develop the fundamental platforms for process robustness, end of line reliability, and part tracking required for manufacturing scale commercialization, and market adoption of white lighting panels. The focus of the process development is reliability and overall quality of affordable OLED lighting products. Processes that will be developed and delivered include manufacturing process robustness for product reliability and quality control reliability testing strategy, product grading or binning, end of the line test at high throughput, packaging and shipping strategy, and product traceability.

Brookhaven National Laboratory will evaluate a DC system directly-coupled to a solar energy system that enables the use of DC power directly for office lighting. This system will use equipment developed by Nextek Power Systems and will being installed in a Suffolk County office buildings. BNL will document the energy savings and value propositions available from this type of system compared to a conventional DC to AC lighting system powered a solar photovoltaic system. This work will provide information that can be used to determine the value propositions for installing this type of system at larger scale in buildings throughout New York State.

The objectives of this project are to: 1) Develop, evaluate, and down-select a set of component technologies that will enable highly efficient and uniform large area white OLED lighting panels at low cost, 2) Integrate the selected subset of technology elements to demonstrate the required panel level performance targets of 80 lm/W with 85% brightness uniformity at 2000-3000 cd/m2 for a large area OLED panel at least 100 cm2 in size 3) Demonstrate scalability of the low-cost technologies and 4) Demonstrate an OLED luminaire using the high-performance OLED panels delivering more than 2000 lumens at greater than 65 lm/W.

The project will develop LED luminaires specifically for three applications: clean rooms, containment areas and surgical suite applications. The LED luminaires will (1) conform to DLC Qualifications and LM79/LM80/IES Handbook guidelines and produce desired levels of glare-free, uniform illumination; (2) maximize energy efficiency, heat dissipation, and integration into modern ceiling structures; and (3) develop new universally accepted standards for evaluation for LED luminaires in clean room applications and validate their performance with respect to leakage and surface contamination. The proposed work includes mechanical/electrical design, prototype creation, component procurement, tooling, production, assembly, field testing, independent lab testing and cost/sell budget development. It also includes market/sales development to create new marketing materials and training of sales force (internal support, traditional distribution and OEM), and creation of a promotional program.

The project will transition the newly developed emitter materials from laboratory scale to pilot scale followed by comprehensive testing that will involve strategic manufacturing partners as part of the pre commercialization process.

In this project, the Lighting Research Center (LRC) of Rensselaer Polytechnic Institute will demonstrate and evaluate LED lighting and controls. The LRC will first evaluate a range of commercially available but currently underutilized control products and systems, from simple stand-alone controls, to fixture-integrated products, and more complex automated control systems. The LRC will review the features, operations, and protocols of each system selected and will analyze the operation of these control products with various types of drivers commonly used in commercially available LED lighting products. Once this review is complete, the LRC will down select two or more control systems to demonstrate and evaluate in different areas of an existing office building. The LRC will also select and install LED lighting fixtures to retrofit the existing fluorescent lighting in the building. Once the systems are installed and commissioned, the LRC will evaluate the operation of the control and LED lighting systems and compare their performance, operation, energy savings, and occupant acceptance to each other, as well as to the previously existing lighting system.

Activities under this project will advance the development and market readiness of Vital Vio lighting products. These activities include characterization and optimization of Vital Vios current prototypes, full scale design concepts, LED module requirements including design and thermal analysis, LED module for incorporation into final fixture designs, various testing and certifications, and pilot implementations.