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Document Description
Title
An
improved
control
strategy
for a
hybrid
series
compensator
Author
Karthik
,
Kannan
,
1976-
Description
Thesis
(M.Eng.)--Memorial
University
of
Newfoundland
,
2001.
Engineering
and
Applied
Science
Date
2001
Pagination
xxii, 203 leaves : ill.
Subject
Capacitors
,
Synchronous--Simulation
methods;
Degree
M.Eng.
Degree Grantor
Memorial University of Newfoundland. Faculty of Engineering and Applied Science
Discipline
Engineering and Applied Science
Language
Eng
Notes
Bibliography:
leaves
158-161.
Abstract
This
thesis
presents
an
improved
control
strategy
to
ameliorate
the
load
voltage
and
supply
current
profiles
in a
power
system.
A
synchronous
d-q-0
based
control
scheme
is
developed
for a
hybrid
series
compensator
topology
to
cancel
the
zero
,
negative
and
harmonic
components
from the
load
voltage
and also
suppress
the
supply
current
harmonics.
--
The
proposed
d-q-0
based
control
scheme
combines
the
decoupling
of the
current
and
voltage
variables
,
transformation
and
filtering
to
extract
the
harmonic
voltages
and
currents.
In the
harmonic
current
extraction
procedure
, the
zero
sequence
components
(including
the
fundamental
frequency)
are
removed
before
applying
the
required
transformations
to
filter
out
the
harmonics
from the
supply
current.
This
is
done
to
ensure
that the
zero
sequence
components
do
not
produce
alternating
components
in the
synchronous
frame
,
which
lead
to
errors
in the
filtered
output.
This
control
approach
was
developed
as an
improvement
over
the
instantaneous
active
and
reactive
power
(IRP)
theory
based
scheme
,
which
assumes
a
balanced
and
sinusoidal
supply
voltage.
It
is
shown
that the
IRP
theory
based
harmonic
extraction
procedure
does
not
provide
an
accurate
estimate
of the
supply
current
harmonics
in the
presence
of
imbalance
,
voltage
distortion
and
zero
sequence
components.
--
The
feed-forward
control
approach
based
on the
synchronous
transformations
in the
d-q-0
frame
is
susceptible
to
gain
variations
which
affect
both
system
stability
and the
compensation
error.
Hence
, a
simplified
single
phase
harmonic
equivalent
model
is
developed
to
carry
out
stability
and
distortion
analysis
of the
hybrid
series
compensator
topology.
The
effect
of the
controller
gain
parameters
Ky
and
Rh
on the
stability
limits
is
investigated
with
some
root-locus
plots.
The
influence
of the
controller
gain
parameters
on the
distortion
levels
in the
load
voltage
and
supply
current
is
examined
through
a
distortion
analysis.
From the
analysis
it
is
shown
that
limited
controller
gain
margin
is
one
of the
drawbacks
of the
hybrid
single-series
compensator
topology.
Moreover
,
stability
constraints
on the
values
of the
control
parameters
limit
the
range
of
compensation
for
wide
variations
in the
supply
voltage
and
load
harmonics.
--
A
two-compensator
topology
is
proposed
to
reduce
the
interaction
between
the
voltage
and
current
signals
by
allowing
independent
control
of the
two
voltage
components
,
thereby
increasing
the
stability
limits.
A
much
larger
controller
gain
margin
(hence
larger
compensation
range)
and
suppression
of
voltage
drop
across
the
passive
shunt
filter
are
shown
to be
some
of the
advantages
of the
proposed
topology.
--
A
simulation
model
of the
overall
system
with the
proposed
two-compensator
topology
is
constructed
using
the
SIMULINK
toolboxes
in
MATLAB.
The
simulation
results
are
used
to
demonstrate
the
effectiveness
of the
proposed
d-q-0
based
control
scheme
and the
two-compensator
topology
when
applied
to
load
voltage
compensation
and
harmonic
isolation
of
non-linear
loads.
Type
Text
Resource Type
Electronic
thesis
or
dissertation
Format
Image/jpeg;
Application/pdf
Source
Paper copy kept in the Centre for Newfoundland Studies, Memorial University Libraries
Local Identifier
a1538870
Rights
The author retains copyright ownership and moral rights in this thesis. Neither the thesis nor substantial extracts from it may be printed or otherwise reproduced without the author's permission.
Collection
Electronic
Theses
and
Dissertations
Scanning Status
Completed
PDF File
(21.38
MB)
--
http://collections.mun.ca/PDFs/theses/Karthik_Kannan.pdf
CONTENTdm file name
12912.cpd
