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Enquire- Introduction, modes, equations
- The average output voltage, ripple current, and voltage
- Modeling and Design
- Condition for continuous conduction, Applications
- Simulation
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Fundamentals of DC-DC Converters
BY
Skill Lync
Get introduced to the DC-DC Converter concepts with the Fundamentals of DC-DC Converters using MATLAB and Simulink ...Read more
Online
3 Months
Quick Facts
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Medium of instructions
English
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Mode of learning
Self study
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Mode of Delivery
Video and Text Based
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Course overview
Fundamentals of DC-DC Converters using MATLAB and Simulink certification is a 3 months course that is designed online to help professionals gain knowledge of DC-DC Converters, and make models with the help of MATLAB and Simulink. This course will enable people to understand why, and how DC-DC converters are a necessary evil for both mechanical, and electrical engineers.
Fundamentals of DC-DC Converters using MATLAB and Simulink training will provide in-depth analysis, design, and modeling of non-isolated DC-DC converters. The students will hence design and illustrate the DC-DC converter application. They will also undergo different kinds of simulation using MATLAB, and Simulink. This course covers the basic principles of function and Bode plot. This certification programme will also help the learners in designing the converter of separate applications. The details covered under the rectifier circuits of this course will be helpful for tackling the challenges that arise in power electronic industries.
The highlights
- 3 months programme
- Completion certificate
- Electrical engineering course
- Flexible programme fee
- 1-on-1 demo sessions
Program offerings
- Online programme
- Merit certificate
- Completion certificate
- E-verified profile
- Technical projects
- Professional portfolio
- Group video support
- Telephone support
- Forum support
- Email support
- Software
- Technical support
Course and certificate fees
Fundamentals of DC-DC Converters using MATLAB and Simulink Fee Structure is -
Description | Fees |
Programme Fee | Rs. 40,000 |
certificate availability
Yes
certificate providing authority
Skill Lync
Who it is for
- Ph.D. scholars, engineering bachelor degree students, electrical vehicles, other graduates who want to get jobs in the electrical engineering field.
Eligibility criteria
Educational Qualification
Any stream of graduate or postgraduate students is welcome.
Certification Qualifying Details
After projects and exercises, the students will receive the Fundamentals of DC-DC Converters using MATLAB and Simulink shall be learning certification by Skill Lync. There is also a great chance to secure a merit certificate for those who have secured a place amongst the top 5%.
What you will learn
Knowledge of matlab
With the Fundamentals of DC-DC Converters using MATLAB and Simulink certification course, the students shall be covering concepts stated below:
- Concepts of all DC-DC converter, modeling, analysis, and design with hands-on simulation.
- The basics of the transfer function and Bode plot of any converter will be taught.
- A hands-on demo using the MATLAB software, and Simulink software of the DC-DC converter shall be provided.
The syllabus
Week 01 - DC-DC Buck Converter
Week 02 - DC-DC Boost Converter
- Introduction, modes, equations
- The average output voltage, ripple current and voltage
- Modeling and Design
- Condition for continuous conduction, Applications
- Simulation
Week 03 - DC-DC Buck-Boost Converter
- Introduction, modes, equations
- The average output voltage, ripple current, and voltage
- Modeling and Design
- Condition for continuous conduction, Applications
- Simulation
Week 04 - DC-DC Cuk Converter
- Introduction, modes, equations
- Average output voltage, ripple current, and voltage
- Modeling and Design
- Condition for continuous conduction, Applications
- Simulation
Week 05 - Interleaved operation and other non-isolated converter
- Interleaved DC-DC Converter
- SEPIC Converter
- Zeta Converter
- Luo Converter
- Applications
Week 06 - Bode Plot Fundamentals
- The transfer function of electrical circuit
- Introduction to Bode plot
- Procedure to draw Bode plot
- Simple example
- Demo with Matlab
Week 07 - Buck Converter Design and Modeling
- Power supplies for telecommunications applications may require high currents at low voltages
- Design a buck converter that has an input voltage of 3.3 V and an output voltage of 1.2 Vt
- Specify the inductor value such that the peak-to-peak variation in inductor current does not exceed 40 percent of the average value
- Assume the switching frequency=500kHz.
Week 08 - Boost Converter Design and Modeling
- Design a boost converter for DC drive with input voltage =250 V, input current = 200 A, output voltage= 400 V, switching frequency=50kHz
- Calculate the ripple voltage and ripple current
- Obtain the average state-space model of the designed converter
- Check for controllability and observability
Week 09 - Buck-Boost Converter Design and Modeling
- Design a buck-boost converter for a PV system with input voltage =24 V, output voltage magnitude is 16 V, switching frequency=100kHz
- Calculate the ripple voltage and ripple current
- Obtain the average state-space model of the designed converter
- Check for controllability and observability.
Week 10 - Cuk Converter Design and Modeling
- A Cuk converter has an input of 12 V and is to have an output voltage magnitude of 18 V supplying a 40-W load
- Selection of the duty ratio, the switching frequency, and the inductor sizes are such that the change in inductor currents should not be more than 10 percent of the average inductor current, the output ripple voltage should not be more than 1 percent, and the ripple voltage across C1 is no more than 5 percent.
Week 11 - Interleaved operation and other non isolated converter
- Design a Luo converter for fuel cell with input voltage =250 V, input current = 200 A, output voltage= 400 V, switching frequency=50kHz
- Calculate the ripple voltage and ripple current
- Obtain the average state-space model of the designed converter
- Check for controllability and observability.
Week 12 - Bode Plot Fundamentals
- Obtain the transfer function of Buck converter using the state-space model and hence obtain its Bode plot for Vs=12 V, Vo=5V, L=100mH, C=200µF, R=5Ω
- Obtain the gain margin and phase margin, and hence find its stability.
Admission details
Here are the Fundamentals of DC-DC Converters using MATLAB and Simulink classes admission process:
Step 1: Visit the official site of Skill Lync:
https://skill-lync.com/electrical-engineering-courses/fundamentals-dc-dc-converters
Step 2: After the ‘Enrol Now’ button has been found on top of the website, and clicked, the next step is either login or sign up.
Step 3: When and where the fee gets deposited, Skill Lync’s admission process is termed complete.
How it helps
Some Fundamentals of DC-DC Converters using MATLAB and Simulink certification benefits are:
- There are practical exercises that test the learnings, and knowledge that is understood from this certification course.
- The content also has 2 projects that can allow the development of solutions to a problem statement.
- Depending upon what course access is needed, the candidates can get variable fee payment options to choose from.
FAQs
What skills of software will Skill Lync teach?
The software skills taught shall be MATLAB-Simulink.
How will the certificate programme help in getting the job?
The power supply design companies that need DC-DC converters take candidates from this course.
What is the domain of this Fundamentals of DC-DC Converters using MATLAB and Simulink online certification?
The domain of this DC-DC Converters course is electrical engineering.
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