It has become time to slash the
cost of power inversion, now that the cost of PV power is in the dollar per
watt range. As stated, present BOS costs
are already 44% of total package.
Without a major improvement that is about to leap ahead.
Here we have a ten fold weight
reduction along with related costs. I
would say that the difficulty is now well in hand.
Cost effective inversion capacity
has been a long standing drag on complex systems in particular. This is a welcome improvement that will be
popping up everywhere.
Ideal Power Converters: A Disruption in the Inverter Market?
Radically lowering the cost of photovoltaic inverters by reducing the
weight of magnetics
ERIC WESOFF: JULY 13, 2011
It's still very early for inverter innovator Ideal Power
Converters, but this is a startup making some bold claims.
Ideal Power Converters (IPC) is a ten-employee firm located just
outside Austin , Texas
Although the IPC PV inverter is transformer-less, unlike other
transformer-less inverters, it supports standard grounded arrays with 600 VDC
unipolar systems or +500 to -500 VDC bipolar systems. IPC also claims that
their new inverter is more efficient and more reliable than conventional
inverters. IPC has eliminated all electrolytic capacitors, a common point of
failure in inverters.
I spoke with Paul Bundschuh, IPC's VP of business development, at the
Intersolar tradeshow in San Francisco Battery
Ventures, funding from the State of Texas Emerging Technology Fund, and is
generating revenue from a licensing deal with Lockheed Martin.
The much smaller and lighter transformer-less inverter is in
pre-production and still in the certification and field trial process. The firm
is looking to go after the large and growing commercial market in the
25-kilowatt to 2-megawatt project size. Bundschuh spoke of the value generated
in the commercial sector since the firm's product is essentially
"displacing electricity at retail rates rather than at wholesale
rates."
The real value proposition for the IPC product is the reduction in labor hours, real estate, and infrastructure required for large commercial inverters. IPC gets this size and weight reduction by getting rid of magnetic steel and copper wire in transformers and inductors. I suspected that these parts were replaced with exotic materials like silicon carbide (SiC) or gallium nitride (GaN), but that's not the case. IPC uses conventional silicon IGBTs, but what's different is the topology -- what IPC calls “current-modulation” and advanced firmware controls, according to Bundschuh.
The real value proposition for the IPC product is the reduction in labor hours, real estate, and infrastructure required for large commercial inverters. IPC gets this size and weight reduction by getting rid of magnetic steel and copper wire in transformers and inductors. I suspected that these parts were replaced with exotic materials like silicon carbide (SiC) or gallium nitride (GaN), but that's not the case. IPC uses conventional silicon IGBTs, but what's different is the topology -- what IPC calls “current-modulation” and advanced firmware controls, according to Bundschuh.
As solar PV module prices continue to decline, balance-of-system
(BOS) components like inverters will account for a majority share of a PV
project’s total cost per watt within the next year, according to GTM
Research's most recent report. In 2010, BOS costs accounted for approximately
44.8 percent ($1.43 per watt) of a typical, utility-scale crystalline silicon
(c-Si) project, with that percentage forecasted to increase to 50.6 percent in
2012.
Reducing inverter costs becomes a much more critical piece of system
cost reduction.
Once IPC has the technology under control, the challenge remains in
amassing field data from its early installations and convincing conservative
system installers to take a chance on a new company with a new technology.
Here's a link to a white paper from the vendor, and here's a link to GTM
Research's most recentin-depth
analysis of the inverter market.
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