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Ultra-capacitors are increasingly becoming important as onboard energy storage in electric ship, and electric and hybrid electric vehicles where they assist in providing peak power during acceleration and absorbing regenerative energy. While active research is continuously being pursued in the use of ultra-capacitors as energy storage in motor drive applications, the topologies reported so far in literature have drawbacks such as limited real power compensation with no reactive power compensation,and reactive power compensation with no real power compensation. DC-DC converters have significant…mehr

Produktbeschreibung
Ultra-capacitors are increasingly becoming important
as onboard energy storage in electric ship, and
electric and hybrid electric vehicles where they
assist in providing peak power during acceleration
and absorbing regenerative energy.
While active research is continuously being pursued
in the use of ultra-capacitors as energy storage in
motor drive applications, the topologies reported so
far in literature have drawbacks such as limited
real power compensation with no reactive power
compensation,and reactive power compensation with no
real power compensation. DC-DC converters have
significant advantages in low to medium power
applications, but degraded performance for high
power applications such as in electric ship.
Cascaded multilevel converters have been at the
center of research for the past several years due to
their inherent advantages in medium and high power
applications, especially in motor drive
applications.This research proposes two hybrid
cascaded multilevel converter (HCMC) topologies and
the corresponding control strategies applied to
motor drive, interfacing both dc sources and
capacitor energy storage elements.
Autorenporträt
Sardis Azongha was born in Cameroon, Central Africa. He received
a Bachelor of Science degree in 2004 and a PhD in 2008 both in
Electrical Engineering at Florida State University. He is
currently working as a Postdoctoral Research Associate in the
Center for Advanced Power Systems (CAPS) at Florida State
University.