DC-HVDC Converter: Full Load & No Load Characteristics

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SUMMARY

The discussion focuses on the full load and no load characteristics of DC HVDC converters, specifically addressing the phenomenon where the output voltage is lower under full load conditions compared to no load. The user manual indicates that at full load, "X" Volts input results in "Y1" volts output, while the same input yields "Y2" volts output under no load, with Y2 being greater than Y1. This voltage drop under load is attributed to internal resistance and regulation mechanisms in power supplies, which attempt to compensate for voltage drops caused by increased current demand.

PREREQUISITES
  • Understanding of DC HVDC converter operation
  • Knowledge of voltage regulation principles in power supplies
  • Familiarity with electrical resistance and its impact on voltage
  • Basic concepts of unregulated versus regulated power supplies
NEXT STEPS
  • Research the principles of voltage regulation in DC power supplies
  • Study the impact of internal resistance on output voltage in converters
  • Learn about the differences between regulated and unregulated power supplies
  • Explore the characteristics of DC HVDC converters in various load conditions
USEFUL FOR

Electrical engineers, power supply designers, and anyone involved in the operation or design of DC HVDC converters will benefit from this discussion.

nitsan
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Hi

I have been using a DC HVDC converter for a project. I am a little confused with the full load and no load characteristics for this kind of converter.The user manual states that at full load "X" Volts of input gives "Y1" volts output and for no load that same input voltage gives "Y2" volts output with Y2>Y1 by a couple of %. Why does this happen?

thanks
 
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Do you mean: "why is the output lower on load than on no-load"? This is just a measure of how good the regulation of the power supply is.

The output voltage of almost all power supplies drops with load because the extra current causes voltage drops inside the power supply.
Regulated power supplies correct for this by monitoring the output and reducing the resistance of a series regulator in the power supply to increase the output voltage when an increased load would otherwise cause the voltage to drop.

Even these power supplies can have some voltage drop with increasing current.

In unregulated power supplies, the drop in voltage is partly due to the capacitor being partly discharged between charging pulses from the rectifier.
 

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