Successfully reported this slideshow.
We use your LinkedIn profile and activity data to personalize ads and to show you more relevant ads. You can change your ad preferences anytime.

Boost converter

Design of Boost Converter with Simulation in Power Simulation Simulator.

  • Login to see the comments

Boost converter

  1. 1. PREPARED BY: MAYURSINH RATHOD DESIGN OF BOOST CONVERTER
  2. 2. - INTRODUCTION - - FLOW CHART - SIMULATION OF BOOST CONVERTER - FUTURE WORK
  3. 3. INTRODUCTION  Compare to AC,DC voltage is highly efficient to transfer. But it is difficult to step up DC voltages.  To step up DC voltage Boost converter is use. We design Boost Converter in small size.  It is use full in large size by changing parameter of Boost converter.
  4. 4. BATTER Y DC-DC BOOST CONVERTER DC LOAD INVERTE R AC LOAD BLOCK DIAGRAM CONTRO L CIRCUIT
  5. 5. CIRCUIT OF BOOST CONVERTER
  6. 6. WORKING Charging mode : The switch is close and the inductor is charged by the source through the switch. The charging current is exponential in nature but for simplicity is assumed to be linearly varying. The diode restricts the flow of current from source to the load.
  7. 7. WORKING Discharging mode : The switch is open and the diode is forward biased. The inductor now discharges and together with the source charges the capacitor and meets the load.
  8. 8. WAVE FORM
  9. 9. ADVANTAGES 1. Unidirectional output current. 2. Easy to analyze. 3. Easy to understand. 4. Only one switch. 5. High efficient. 6. Provide one polarity output.
  10. 10. DISADVANTAGES 1. Low amount of DC Step up. 2. Not suitable for High Power Converter.
  11. 11. APPLICATION 1. Used In Hybrid Electric Vehicle. 2. Used In HVDC System. 3. Used For Power Factor Correction. 4. Used For Solar Power System.

×