Date: Jun 15, 2015 Source: SBIR.gov (
click here to go to the source)
SBIR/STTR SUCCESS
PRINCETON
POWER SYSTEMS
To understand the importance of microgrids, one first must understand its logistics.
Electricity is dispersed to homes and businesses using a typical grid that connects
buildings to central power sources. This interconnectedness is the reason why when there
is an outage, everybody in the area is affected. A microgrid, on the other hand, while still
tied to the traditional grid, can operate on its own using local energy generation in times of
crisis like storms or power outages.
Princeton Power Systems takes this technology one step further. The company's products
can run with and without an electric grid, and are therefore safe from power outages.
Users may "disconnect" from the grid using a combination of solar arrays and batteries.
Besides being safe from storms and outages, microgrids have a host of other benefits.
Take for instance Alcatraz, the once-infamous prison turned historical site. Alcatraz was
emitting dangerous carbon emissions all around the San Francisco Bay area, in addition
to running up large monthly electricity bills. Key government personnel wanted to change
that, so in 2011 they reached out to Princeton Power Systems to install a microgrid using
solar arrays and battery banks. Today, Alcatraz Island runs almost entirely on renewable
energy, saving taxpayers 80% on fuel use, and significantly reducing the need for fossil
fuels. This catapulted Princeton Power Systems into the limelight, and soon many major
organizations and prime contractors, all of which saw the huge potential power in the
commercial marketplace, were contacting the company.
Just two years prior, Princeton Power Systems began its journey in the SBIR program,
and had received a Phase I and II SBIR award from NAVSEA to develop a system for
future all-electric warships. The goal was for these ships to have a greater demand for
compact power conversion equipment, high conversion efficiency, and electrical system
PHASE III SUCCESS
Over $15 million in 2014 - $40
million total in phase III revenue and
commercial sales
NOTABLE ACHIEVEMENT
Grew from 4 employees to 50. Very
loyal to New Jersey local economy,
purchasing over 50,000 sq. ft. of
production space in the Princeton
area and employing local personnel.
AGENCIES
DOD (NAVY), DOE
PRINCETON POWER SYSTEMS
3175 Princeton Pike
Lawrenceville, NJ 08648
www.princetonpower.com
W ith all of the talk of renewable energy going on in the media, it's impossible to avoid the
terms "microgrids" and "energy storage." As ubiquitous as these concepts may be, very
few companies have the wherewithal, knowledge, and talent to impact positive and
proactive change. Enter Princeton Power Systems -- a local New Jersey company that creates products
and software for energy management, microgrid operations, and electric vehicle charging. What once
started as a four-person team has flourished into a regional and soon-to-be worldwide powerhouse,
whose beginnings were marked with a Phase I SBIR award through the Navy.
Princeton Power installed its
microgrid technology on the
historical site of Alcatraz Island
using solar arrays and a battery
bank, eliminating dangerous
carbon emissions and the need
for foreign fossil fuels.
flexibility and reliability, while increasing the power density of power converters without compromising functional performance. AClink
power conversion technology and high-voltage silicon carbide switches allowed for a small, more efficient and more flexible
product that provided simplified ship design, improved ship efficiency, and improved electrical system control. While the company
eventually sold these units to Northrup Grumman, the core of this technology has stayed with them every step of the way.
"Our products consist of digital controllers and software that are adaptable to the application," explains Co-Founder and Chief
Strategy Officer Darren Hammell. "The control board was developed partially through the SBIR program and that control board is
used in all of our product lines; this key piece we could not have developed without the help of the SBIR program."
A simultaneous Phase I SBIR with the Department of Energy helped the company to develop prototypes, and formed the basis
for its commercial product line. "Through this particular grant, we found several commercial customers for the product, and NREL
testing facilities purchased the equipment," added Hammell.
Princeton Power Systems continues to work in three areas -- microgrid technology, energy storage systems, and electric vehicle
charging. Since all of its manufacturing is done in-house, the company is working on efficiently building the systems and shipping
them out the door. Princeton Power Systems is currently producing large battery systems as part of its energy storage unit that
supplements its microgrid technology. These stationary battery banks can be tied up directly to the electric grid and provide back
up power for local businesses. The batteries can also be dispatched to provide services to the electric utility companies and grid
operators by correcting irregularities and managing peak demand. One battery system can provide a number of different services,
leveraging recent advances in battery technology. For instance with lithium ion or advanced batteries -- as performance continues
to go up, and prices come down, there has been increasing demand for stationary energy storage. Princeton Power Systems'
technology provides the interface between those batteries and the electric grid.
While most projects are domestic -- largely taking place on the West Coast, Texas, and the North East -- about 20% of Princeton's
business is happening internationally. Hammell just recently came back from Cuba, where he is helping the country achieve its
goals of developing renewable energy sources and reducing its reliance on imported fuels. Princeton Power is also working with
the Haitian Government to tap into the country's massive solar energy potential. After the devastation of the 2010 Earthquake that
severely damaged Haiti's infrastructure and left two thirds of the country without access to electricity, Haiti is looking to move toward
the expansion of renewables and distributed generation.
In the upcoming area of electric vehicle charging, Princeton Power Systems is working on new standards for car chargers, including
moving toward a universal "fast" car charger that is compatible with all electric cars. In addition to a partnership with the City of San
Diego to install car chargers in the parking lots of the San Diego Zoo, Princeton Power Systems was chosen to design the first fleet
of bidirectional electric vehicle charging stations at the Los Angeles Air Force Base (LAAFB). The company answered this challenge
by developing thirteen CHAdeMO-based charging stations using its patented UL-Certified bi-directional multi-port inverter -- the
GTIB-30. This was a milestone in competing in the electrical utility ancillary service market and allowed Princeton Power Systems to
provide energy-related services to Department of Defense (DOD) facilities. It is intended that this will help drive cost reduction and
the revenue will partially offset EV fleet lease expense with the potential to improve energy security on base. Just recently, the pilot
program was extended to Fort Hood and Andrews Air Force Base.
It's no wonder that 2014 was a banner year for Princeton Power Systems, and the company recorded its highest revenue to
date -- over $15 million. Although both domestic and international demand for its coveted technologies is soaring each month, the
company is proud to have its roots in the New Jersey soil. Princeton Power Systems is committed to bolstering and supporting the
local economy from which it grew.
Princeton Power's bidirectional electric vehicle charging stations installed at the Los Angeles Air Force Base
