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Using Duty Cycle To Detect Power Supply Overload (Part 1): Why It's Needed Focus: A majority of switching power supplies use sensing resistors to detect overloads and
output shorts. At high output current, a sense resistor value becomes comparable to the
resistance of the board traces and wires as well as the diode bonding wire resistances,
which reduces the overload detection circuit accuracy. However, if the power supply is
made correctly, its feedback sensing node would be placed on or near the output terminals
to efficiently compensate for the voltage drop across the printed board foil, inductor
winding resistance, control MOSFET RDS(ON), etc. In this case, when the load current
changes, the feedback loop commands the control PWM duty cycle to compensate for the
voltage drop. At very heavy loads or shorts the feedback may increase the control PWM
signal duty cycle to very high values. This effect is used in the proposed protection
circuit. This part 1 article explains how the duty cycle depends on the load current in a
buck converter and how to estimate the thresholds for the protection circuit tripping at
overload.
What you’ll learn: - How to use duty cycle to detect overloads in PWM-based power converters
View the Source
Author & Publication: Gregory Mirsky, Continental Automotive Systems, Deer Park, Ill., How2Power Today, Apr 17 2017
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