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Inverter Topologies
01-20-2017, 11:56 (This post was last modified: 01-20-2017 11:57 by davidbrady.)
Post: #1
Inverter Topologies
Folks,

The evolution of DC-AC inverter technology over the years has left many of us dazed and confused. The attached article from Trace Engineering (circa 2000) describes each topology along with their advantages and disadvantages. Amazing that after 23 years the venerable Trace SW series still competes well with the latest offerings from Magnum, Outback, Victron and the others in the mobile market. In fact, the only inverter that really competes with the SW in terms of surge capability, total harmonic distortion, idle power consumption, voltage regulation, and efficiency is the Hybrid style inverter, such as Magnum's MSH4024M. The only real relative disadvantage of the Trace SW technology is cost to produce. Enjoy!


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.pdf  2000 Inverter technology.pdf (Size: 321.91 KB / Downloads: 144)

david brady,
'02 Wanderlodge LXi 'Smokey' (Sold),
'04 Prevost H3 Vantare 'SpongeBob'

"I don't like being wrong, but I really hate being right"
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01-21-2017, 11:42
Post: #2
RE: Inverter Topologies
Thanks for finding that. It is very informative. Though you would think that in the 16 years since that was produced, technology would have progressed some.

Steve Gureasko
90 WBSA "Jus Chillin"
Ponchatoula, La.
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01-22-2017, 16:29
Post: #3
RE: Inverter Topologies
True, we're still in search of the perfect sinewave inverter technology. Probably, the best we've had so far in terms of waveform is the mechanical rediline used in the older birds! Unfortunately it's shortcomings are many. I think the major advancements in inverter technology over the last 15 years are in the area of configuration, control, and monitoring. The latest inverters sport all the user interface features we've all grown accustomed to in our electronic gadgets: remote access, web browser user interfaces, real data communication protocols to aid in integrating with local and remote management platforms, stackability in 3 phase, or in parallel/series for twice the voltage and/or twice the current. In terms of semiconductor advancements, integrated gate bipolar transistors (IGBTs) are all the rage these days. Typical inverters use banks of MOSFET power transistors. My Trace SW has 54 MOSFETs to provide the 650A of DC current needed for AC surge loads like starting my CruisAir ACs. There are 1200V 1000A IGBTs on the market today that can reduce this number to 2 devices. The trouble is IGBTs are still expensive. They're used in variable frequency motor controls for electric cars and in 3 phase variable speed motor drives for CNC machines but they're still too expensive for 4KW inverters.

david brady,
'02 Wanderlodge LXi 'Smokey' (Sold),
'04 Prevost H3 Vantare 'SpongeBob'

"I don't like being wrong, but I really hate being right"
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