Course Content 

Power Supply (DC-DC) & Its Verification/Validation Process

📅 Course Duration: 2 Months
🎯 Designed For: Professionals in Electronics, Embedded Systems, or Hardware Design & Validation

Course Overview

This hands-on course provides a comprehensive understanding of DC-DC converters, their design, and the complete verification and validation process. Ideal for hardware engineers, system designers, and power validation teams, it covers both theory and practical implementation—including simulation, testing, and debugging of modern power systems.

Course Modules

MODULE 1: Fundamentals of DC-DC Converters

• Introduction to DC-DC Converters
  
  

• Key Active and Passive Components
  
  

• Converter Selection Process
  
  

  • BUCK vs. BOOST vs. LDO vs. PMIC
    
    

  • Efficiency & Duty Cycle
    
    

  • Ripple Voltage & Ripple Current
    
    

  • Dropout Calculation
    
    

  • Inrush Current Measurement
    
    

• Practical Simulation with Tina-TI
  
  

MODULE 2: Component Selection for DC-DC Converters

• Choosing the Right Input/Output Capacitors
  
  

• Inductor Selection and Sizing
  
  

• MOSFET Selection Criteria
  
  

• Understanding Component Trade-Offs in Real Designs
  
  

MODULE 3: Control and Circuit Stability

• Soft Start Circuits
  
  

  • Why It's Needed and How It Works
    
    

• Compensation Circuits
  
  

  • Purpose and Design Fundamentals
    
    

  • Ensuring Loop Stability
    
    

• Transient Response, Line & Load Regulation
  
  

• Power Supply Rejection Ratio (PSRR)
  
  

• DC Biasing Effects on Performance
  
  

MODULE 4: Power Losses & PCB Design Guidelines

• Switching vs. Conduction Losses
  
  

• Accurate Ripple Measurement Techniques
  
  

• Power Supply Layout Best Practices
  
  

• Thermal Management in PCB Design
  
  

• Voltage Measurement with High-Speed Scopes
  
  

• Proper Sequencing Techniques
  
  

MODULE 5: Validation & Debugging

• Electrical Validation Workflow
  
  

• Power-On Sequencing (Including ASIC Internal LDOs)
  
  

• Power Noise & Ripple Validation
  
  

• Debugging Faulty Power Rails
  
  

• PMIC Validation and Test Approach
  
  

• SVID Protocol Debug
  
  

• Validation Techniques for BUCK & LDO Regulators
  
  

Contact for Enrollment

📞 Phone/whatsapp: +91 9448690910
📧 Email: HighspeedBoardDesignSimulation@gmail.com
🔗 LinkedIn: HighSpeedBoardDesign (Professional Trainer) Training Institute | LinkedIn