SBIR-STTR Award

Lighting with No Watt Left Behind
Award last edited on: 4/10/2019

Sponsored Program
STTR
Awarding Agency
DOE
Total Award Amount
$850,000
Award Phase
2
Solicitation Topic Code
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Principal Investigator
Elmer Lupton

Company Information

NEMOmetrics Company (AKA: Novate Company~Talking Lights LLC~Non-Intrusive Electric Monitoring)

3 Tremont Street Suite 202
Charlestown, MA 02129
   (617) 242-0050
   info@nemometrics.com
   www.nemometrics.com

Research Institution

Massachusetts Institute of Technology

Phase I

Contract Number: DE-FG02-09ER86399
Start Date: 00/00/00    Completed: 00/00/00
Phase I year
2009
Phase I Amount
$100,000
Lighting consumes a large fraction of the electrical energy used in the U.S. This energy is wasted when a facility is unoccupied or when large portions of a facility are illuminated when not being used by persons requiring the illumination. Although automatic dimming and turn-on/turn-off systems have been created, they require additional electronics, can be expensive, and perform unsatisfactorily if the occupants are not moving. This project will design and build lighting systems that can inherently detect occupants in their vicinity and provide lighting only when required by the occupants. The systems will use existing illumination fixtures and will not require external monitoring technology.

Commercial Applications and Other Benefits as described by the awardee:
The use of this technology should save substantial energy and money, estimated at 21 TBtu or about $530 million. As an added benefit, greenhouse gases will not be produced in the generation of wasted energy.

Phase II

Contract Number: N/A
Start Date: 00/00/00    Completed: 00/00/00
Phase II year
2010
Phase II Amount
$750,000
Lighting a very large fraction of the electrical energy consumed in industrial and commercial facilities. Much of this energy is wasted because rooms and areas are unoccupied or underoccupied or are occupied for only a fraction of the day. Lighting management systems to date are expensive, complex, require multiple sensors, can involve elaborate networking and can rely on movement of occupants rather than simply presence. Technology will be developed and demonstrated to use the inherent properties of the lights themselves to detect occupancy and create a system to reduce greatly energy consumption in unoccupied areas. The system will be inexpensive, easy to install and flexible in design. Light fixtures were tested and the concept was demonstrated of using inherent properties of the lights to detect occupancy, control lighting and reduce energy consumption. Measurements were made of system detection range and capability. Fluorescent light ballasts will be designed, built and tested to refine the technology. Capability will be demonstrated in actual service. The capability will also be extended to control of solid state lighting systems (i.e. LEDs) and to building energy management systems controlling other energy consuming systems like HVAC. Commercial Applications and other

Benefits:
Commercial products will include light ballasts with inherent occupancy monitoring, self regulation and energy saving capability. Benefits can include substantial energy saving and easy to implement energy management systems.