Frontiers in Energy Research,
Journal Year:
2024,
Volume and Issue:
12
Published: Oct. 17, 2024
This
article
presents
an
innovative
APISMC
method
applied
to
PVS,
integrating
the
MPPT
technique
for
a
boost
converter.
The
primary
objective
of
this
approach
is
maximize
converter’s
output
power
while
ensuring
optimal
operation
in
face
varying
environmental
conditions
such
as
solar
irradiance
and
temperature,
dynamically
adapting
variations
system
parameters,
demonstrated
by
obtained
results.
To
achieve
this,
RVO
employed
generate
reference
voltage
power.
A
PI
controller
calculates
current
based
on
control
modeling
utilizes
all
its
variables
synthesize
sliding
surface
duty
cycle
converter
control.
Simulations
conducted
demonstrate
superior
performance
terms
stability,
speed,
compared
traditional
algorithms.
main
contributions
include
improvement
robustness
against
variations,
thanks
integration
adaptive
algorithm
within
SMC.
Moreover,
proposed
theoretical
practical
framework
enables
rapid
attainment
adjusting
real-time,
optimizing
maximum
extraction
stable
regulation
even
under
non-ideal
conditions.
e-Prime - Advances in Electrical Engineering Electronics and Energy,
Journal Year:
2024,
Volume and Issue:
9, P. 100688 - 100688
Published: July 17, 2024
Ensuring
optimal
extraction
of
power
from
photovoltaic
(PV)
systems
under
diverse
climatic
circumstances
is
a
significant
challenge,
which
requires
an
efficient
Maximum
Power
Point
(MPP)
Tracking
(MPPT)
algorithm
and
adequate
conversion
stage.
Therefore,
this
paper
proposes
advanced
MPPT
strategy
implemented
by
Three-Level
Boost
converter
(TLB),
serves
as
the
interface
between
PV
generator
DC
load,
offering
advantages
such
reduced
output
voltage
distortion,
minimized
inductor
current
ripple,
decreased
switching
losses.
To
achieve
more
accurate
tracking,
robust
balance
control
across
TLB
capacitors
also
suggested.
The
proposed
system
meticulously
evaluated
using
MATLAB/Simulink,
demonstrating
its
capabilities
in
MPP
tracking
balancing
scenarios.
Furthermore,
comparative
analysis
various
test
including
static
dynamic
insolation
conditions
sudden
load
variations,
shows
that
suggested
offers
noteworthy
improvements
over
InC
algorithm.
Additionally,
thorough
comparison
with
existing
research
methods
proves
effectiveness
these
methods.
achieves
steady-state
error
0
W,
average
efficiency
99.13
%
99.44%,
fast-tracking
velocity.
Further,
comprehensive
real-time
evaluation
cutting-edge
RT-LAB
platform
confirms
consistency
results
simulation
outputs,
emphasizing
robustness
low
implementation
complexity
overall
strategy.
European Journal of Electrical Engineering and Computer Science,
Journal Year:
2024,
Volume and Issue:
8(4), P. 6 - 20
Published: July 17, 2024
Photovoltaic
systems
can
be
used
for
both
off-grid
and
grid-connected
applications.
Solar
use
a
smart
technology
called
Maximum
Power
Point
Tracker
(MPPT)
to
squeeze
the
most
power
possible
out
of
sun.
MPPT
works
by
constantly
fine-tuning
voltage
from
solar
panels
using
special
component
(DC-DC
converter)
ensure
they
operate
at
their
peak
efficiency
This
project
offers
new
analysis
along
with
basic
ways
it
responds
changing
conditions.
It
examines
how
different
DC-DC
converter
designs
work
algorithms
under
various
environmental
factors.
The
emphasizes
importance
choosing
right
controller
maximum
production
your
system.
compares
traditional
topologies
commonly
found
in
energy
systems.
also
includes
technical
comparison
these
approaches,
focusing
on
factors
like
specific
design
elements,
quickly
system
tracks
changes
output
(tracking
speed),
overall
efficiency.
International Journal of Electrical and Electronics Engineering,
Journal Year:
2024,
Volume and Issue:
11(11), P. 160 - 171
Published: Nov. 30, 2024
Renewable
power
sharing
with
the
grid
is
a
complex
task
as
renewable
sources
are
very
unpredictable
and
always
vary
respect
to
available
natural
sources.
Multiple
connected
common
need
voltage
balancing
stability
for
sharing.
This
paper
connects
hybrid
source
system
energy
storage
modules
The
considered
PV
panels
PEMFC
along
high-capacity
BES
SC
units.
Quadratic
Boost
converter
higher
gain
extraction
capability
than
conventional
boost
converter.
has
store
during
abundance
of
power.
stored
can
later
be
utilized
when
needed
scarcity
from
PEMFC.
unit
provide
momentary
support
any
sudden
variation
on
or
side.
reduces
stress
battery
pack,
which
extends
its
health.
All
units
integrated
DC
side
through
bus.
bus
shares
VSI
operated
by
SRF
controller.
analysis
proposed
carried
out
using
MATLAB
Simulink
software.
modeling
implemented
blocks
'Powersystems'
library
category.
performance
validated
different
operating
conditions
at
Frontiers in Energy Research,
Journal Year:
2024,
Volume and Issue:
12
Published: Oct. 17, 2024
This
article
presents
an
innovative
APISMC
method
applied
to
PVS,
integrating
the
MPPT
technique
for
a
boost
converter.
The
primary
objective
of
this
approach
is
maximize
converter’s
output
power
while
ensuring
optimal
operation
in
face
varying
environmental
conditions
such
as
solar
irradiance
and
temperature,
dynamically
adapting
variations
system
parameters,
demonstrated
by
obtained
results.
To
achieve
this,
RVO
employed
generate
reference
voltage
power.
A
PI
controller
calculates
current
based
on
control
modeling
utilizes
all
its
variables
synthesize
sliding
surface
duty
cycle
converter
control.
Simulations
conducted
demonstrate
superior
performance
terms
stability,
speed,
compared
traditional
algorithms.
main
contributions
include
improvement
robustness
against
variations,
thanks
integration
adaptive
algorithm
within
SMC.
Moreover,
proposed
theoretical
practical
framework
enables
rapid
attainment
adjusting
real-time,
optimizing
maximum
extraction
stable
regulation
even
under
non-ideal
conditions.
