Understanding Peak Inverse Voltage (PIV): Why Is It Important?

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Peak Inverse Voltage (PIV) is the maximum reverse bias voltage a diode can withstand without breaking down, crucial for ensuring the diode remains functional when the input voltage polarity reverses. It must exceed the maximum voltage from the AC generator to prevent breakdown during this reverse condition. When a rectifier diode charges a filter capacitor, the voltage across the diode can effectively double during reverse polarity, necessitating a higher PIV rating. This principle applies to both half-wave and full-wave rectification, where the voltage across diodes can vary and may not be shared equally. Understanding PIV is essential for selecting appropriate diodes in circuit designs to ensure reliability and prevent failure.
queenstudy
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i read this sentence like a 100 times and i still don't get it please can anyone help me??
PEAK INVERSE VOLTAGE (PIV):
PIV is the maximum reverse bias voltage which can be applied safely to a diode without its breaking down. Beyond this voltage a diode breaks down
they say the PIV must be greater than the maximum voltage of the sin form of the ac generator why?
 
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This is so that the diode will not break down when the voltage is reversed and it's supposed to be 'off' - which is what diodes are used for.

(PIV refers to the Max PIV that the diode can stand - not the actual voltage you apply)
 
queenstudy said:
i read this sentence like a 100 times and i still don't get it please can anyone help me??
PEAK INVERSE VOLTAGE (PIV):
PIV is the maximum reverse bias voltage which can be applied safely to a diode without its breaking down. Beyond this voltage a diode breaks down
they say the PIV must be greater than the maximum voltage of the sin form of the ac generator why?

When a rectifier diode conducts and it charges a filter capacitor, it charges the capacitor up to the full positive voltage of the input waveform (minus a small diode voltage drop).

Now, when the input polarity reverses, the diode gets a peak negative voltage on its anode, but it still has the positive voltage of the capacitor on its cathode.

So, it has roughly twice the peak input voltage across it in reverse. This voltage situation is called the peak inverse voltage and the diode needs to be able to cope with it without breaking down.
 
what about the formula PIX greater than Vm in both half and full rectification why??
thank you guys for the help
 
You cannot rely on the two reverse biased diodes sharing the applied volts equally.
 
queenstudy said:
what about the formula PIX greater than Vm in both half and full rectification why??
thank you guys for the help

For the same reason as above, if the diode charges up a capacitor, that voltage will add to the reverse voltage across the diode when the polarity from the transformer reverses.

This applies whether the rectification is half wave, full wave or a bridge. (In a bridge, there are two diodes in series when the polarity reverses and as Sophie mentions, they may not share the voltage equally.)
 

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