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High voltage step- up DC- DC converter using
coupled inductor and switched capacitor
UNDER THE GUIDENCE OF
Mr P.Hema sundar M-Tech,
BATCH NO: EEEK6141508,
By connecting the PV solar cell can in series to produce the
high voltages but, the voltage might effect by shadow effect.
If any one of the PV cell is broken ,the PV array leads to
shutdown the grid.
Those problems can be overcome by using the converters(DC-
Types of converters
Simulation of converter
Plan of action 3
The coupled inductor and switched capacitor a technique is proposed in high
voltage step up dc-dc converter.
The capacitors are charged in parallel and discharged in series by the coupled
inductor, stacking on the output capacitor.
On performing this project can achieve high step up voltage gain in which
the input dc voltage is 24 volts and we will get output voltage 400 volts with
appropriate duty ratio.
Besides the voltage spike on the main switch can be clamped, therefore
conduction losses are reduced and hence efficiency will be increased.
Renewable energy systems are
more and more widely used to
provide electric energy.
Energy derived from natural
processes that are replenished at a
faster rate than they are consumed.
28% of electricity was produced by
Renewable energy sources in over
Modernly converters are classified into two types
Non isolation converters(basic):
Fly back converter
Comparison Of Converters
Buck converter: step-down, has one switch, simple, high
efficiency greater than 90%, provides one polarity output voltage
and unidirectional output current.
Boost converter: step-up, has one switch, simple, high
efficiency, provides one polarity output voltage.
Buck-boost converter: step-up/step-down, has one switch,
simple, high efficiency, provides output voltage polarity reversal.
Fly back converter: four-quadrant operation, has multiple
switches, can be used in regenerative braking.
Methods to produce high voltages
cascaded boost converter techniques
coupled inductor techniques
Integrated boost- sepic converter
• Limited step up voltage
• Parasitic resistance
Boost converter with coupled inductor
• Active clamp circuit
• Zero-voltage switching
Transformer less dc-dc converter
• Conventional dc-dc boost converter has low efficiency
• High step up voltage gain is low
A Generalized high voltage gain boost converter
• High voltage gain
• Lower blocking voltage across the controller switches
Regulated switch mode power supply,
Dc motor drives,
Electric automobiles, trolley cars,
Marine hoists, mine haulers,
Personalcomputers, office equipment,
spacecraft power systems, laptop
Subjects related to my project
Electrical circuit analysis
Design & Analysis
The DC to DC converter is used to step up the given input
Input voltage is 24V as mentioned in the proposed converter.
That volage is step up by using the converter into 400V DC
supply without any ripples at load.
Operation Of Converter
SIMULATION CIRCUIT FOR PROPOSED
 K. B. Park, H. W. Seong, H. S. Kim, G. W. Moon, and M. J. Youn, “Integrated boost-sepic converter for high step-up
applications,” in Proc. Power Electron. Spec. Conf., Rohode, Greece, 2008, pp. 944–950.
 T. F. Wu, Y. S. Lai, J. C. Hung, and Y. M. Chen, “Boost converter with coupled inductors and buck-boost type of
active clamp,” IEEE Trans. Ind. Electron., vol. 55, no. 1, pp. 154–162, Jan. 2008.
 B. Axelrod, Y. Berkovich, S. Tapuchi, and A. Ioinovici, “Steep conversion ration C´ uk, Zeta, and sepic converters
based on a switched coupled inductor cell,” in Proc. IEEE Power Electron. Spec. Conf., Jun. 2008, pp. 3009–3014.
 R. J. Wai, C. Y. Lin, C. Y. Lin, R. Y. Duan, and Y. R. Chang, “High efficiency power conversion system for kilowatt-
level stand-alone generation unit with low input voltage,” IEEE Trans. Ind. Electron., vol. 55, no. 10, pp. 3702–3714,
 V. Scarpa, S. Buso, and G. Spiazzi, “Low-complexity MPPT technique exploiting the PV module MPP locus
characterization,” IEEE Trans. Ind. Electron., vol. 56, no. 5, pp. 1531–1538, May 2009.
 A. Timbus, M. Liserre, R. Teodorescu, P. Rodriguez, and F. Blaabjerg, “Evaluation of current controllers for
distributed power generation systems,” IEEE Trans. Power Electron., vol. 24, no. 3, pp. 654–664, Mar. 2009.
 L. S. Yang, T. J. Liang, and J. F. Chen, “Transformer-less dc-dc converter with high voltage gain,” IEEE Trans. Ind.
Electron., vol. 56, no. 8, pp. 3144–3152, Aug. 2009.
 S. V. Araujo, R. P. Torrico-Bascope, and G. V. Torrico-Bascope, “Highly efficient high step-up converter for fuel-cell
power processing based on three-state commutation cell,” IEEE Trans. Ind. Electron., vol. 57, no. 6, pp. 1987–1997, Jun.
 C. L. Chen, Y. Wang, J. S. Lai, Y. S. Lee, and D. Martin, “Design of parallel inverters for smooth mode transfer micro
grid applications,” IEEE Trans. Power Electron., vol. 25, no. 1, pp. 6–15, Jan. 2010.
 S. K. Changchien, T. J. Liang, J. F. Chen, and L. S. Yang, “Novel high step-up dc-dc converter for fuel cell energy
conversion system,” IEEE Trans. Ind. Electron. vol. 57, no. 6, pp. 2007–2017, Jun. 2010.
Program Educational Objectives Relevance
Graduates shall have good technical knowledge
and skills in the area of Electrical & Electronics
engineering to fulfill the needs of industry and
We got good
by doing this
Graduates shall have research capabilities to
achieve success in their chosen fields with team
We got more
Graduates shall be successful engineers with
lifelong learning, right attitude and Ethics
Program Outcomes Relevance
An ability to apply knowledge of mathematics,
science, and engineering.
While doing a design of converter
An ability to design and conduct experiments, as
well as to analyze and interpret data.
We can Conduct more experiments in MAT-
An ability to design a system, component, or
process to meet desired needs within realistic
Constraints such as economic, environmental,
social, political, ethical, health and safely.
Manufacturability and sustainability.
Converter is used for environmental,scoitey
needs to achieve high voltage
An ability to function on multi-disciplinary teams
Maths,science,engineering and management
An ability to identify, formulate, and solve
Identified problem by using non renewable
An understanding of professional and ethical
Program Educational Objectives Relevance
An ability to communicate effectively
The broad education necessary to understand the impact of
engineering solutions in a global, economic, environmental and
A recognition of the need for, and an ability to engage in life-long
A knowledge of contemporary issues
An ability to use the techniques, skills, and modern engineering tools
necessary for engineering practice.
We can use more
techniques,skills noting but
An ability to carry out research in the field of Power Electronics and
Power Systems resulting in product development.
Why because, my project is
power electronics oriented
To have large high step-up voltage gain, some converters have
been proposed which use the coupled-inductor as a transformer
in fly back and forward converter.
To get large efficiency of converter, reduces the conduction
losses and voltage spikes occurs across the power switch.
S.NO ACTION STEPS COMPLETION DATE
1 Title and Abstract 28/07/2014
2 Literature survey and po’s and peo’s 18/09/2014
3. Modeling of circuit 15/10/2014
4 Simulation of converter 29/12/2014
5 Fabrication of converter 28/01/2015
6 Results & documentation thesis with rough
7 Thesis submission(softcopy and hardcopy) 15/03/2015