Diode Failure: Causes & Effects

In summary, the conversation discusses the various conditions that can cause diode failure, such as voltage transients and overcurrent. The power dissipation caused by these conditions results in heating, which can lead to failure modes such as current bunching or melting of the silicon. The maximum junction temperature and the geometry of the diode are important considerations in calculating the risk of failure. High temperatures over a long period of time can also affect the impurity diffusion and destroy the junction properties. The melting point of silicon is around 190 degrees Celsius.
  • #1
Shadrack
15
0
Does anyone have any information on diode failure? I'm interested in knowing how diodes can fail and what happens when they do fail.

Specifically, what conditions of a diode will cause it to fail to be a closed circuit either direction criteria (like, become as useful as a wire)?
 
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  • #2
Voltage transients tend to cause the wire effect.
Overcurrent tends to cause an open, like blown fuse.
On rare occasions you can get states between these extreams.

What happens depends failure mode and on what its being used for.
 
  • #3
Take a look at the full diode curve, including both the forward bias area and the reverse avalance breakdown area. Both of those areas can result in significant power dissipation, where you have both voltage and current at the same time. That power dissipation causes heating, which in the forward conduction region lowers the forward voltage and increases the forward current. I'm not sure what increased temperature does in the reverse avalance region offhand -- probably helps to limit it since avalanche is related to mean free path. Also in the forward bias region, heating and the positive tempco effects can cause current bunching, which accelerates failure modes.

In my experience, the heating first melts the silicon (in the current bunching areas), which then looks like a low-impedance short. If there is sufficient power from the source, the fail-short will blow open as a fail-open. If there is not sufficient power from the source, it will likely stay a fail-short.

The maximum junction temperature is one key to calculating whether you are at risk for failure. There are also SOA considerations, and the geometry of a power diode construction can help to ease the current bunching issue.
 
  • #4
Thanks for the input NoTime and berkeman!

I will need to study the curves of the diode in question to see what could possibly be occurring. Is it possible that being in a high-temperature enviornment over the span of years will causs a melt in the silicone that will causs a low-impedance short? Or are we looking at a momentary high-temperature condition that is at the melting point of silicone?

I wonder what the melting point of silicone is...
 
  • #5
High temps with current over years will affect the impurity diffusion in the device structure and destroy the junction properties.

Don't know if it's the same as melting point, but outright junction failure will occur somewhere around 190c in silicon.
 

Related to Diode Failure: Causes & Effects

1. What is a diode failure?

A diode failure occurs when a diode, an electronic component that allows current to flow in only one direction, stops working or performs poorly. This can lead to malfunctioning or damaged electronic circuits.

2. What are the common causes of diode failure?

The most common causes of diode failure include overvoltage, overcurrent, high temperature, reverse voltage, and physical damage. These can cause the diode to exceed its maximum ratings and lead to failure.

3. What are the effects of diode failure?

The effects of diode failure can vary depending on the type of diode and the application it is used in. In general, diode failure can lead to circuit malfunctions, increased heat generation, and potential damage to other electronic components.

4. How can diode failure be prevented?

Diode failure can be prevented by using diodes with appropriate ratings for the application, providing proper heat dissipation, and using protective measures such as fuses or surge suppressors. Regular maintenance and testing can also help identify potential issues before they lead to failure.

5. Can diode failure be repaired?

In most cases, diode failure cannot be repaired and the diode will need to be replaced. However, some diodes may have built-in protection mechanisms that can prevent further damage to the circuit. It is important to consult the manufacturer's guidelines and specifications when attempting to repair a diode.

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