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High Power Diode Testing

High Power Diode Testing

High Power Diode Testing

(OP)
What are the failure characteristics of silicon diodes? Do they usually completely fail or deteriorate over time? I have a bank of 162 * 400Amp, 1000Vdc diodes to test for reverse leakage current and forward voltage drop versus their specs. However, I am unsure sure if the test results show a large proportion of the population are within X% of the spec value, ie: how far away in % from the spec value can the test results be before we decide that that diode is classed as failed? The diodes are pretty old but still functioning. I guess I am just uncertain as to the failure mechanism of silicon diodes and want to know more.

Thank you.

RE: High Power Diode Testing



Maybe not really the answer on your question but:

many cases of equipment failure may be determined by inspection of diode or thyristor silicon tablets. Adhering to manufacturer's specs for torque or pre-load pressures, surface finish of heatsinks and properly calibrated clamps could save expencive, if not catastrophic failurers in high-power equipment. Simple good houseceeping practices (periodically checks for loose wiring, dust, carbon tracking, discoloration of aux. components and pressure settings of clamps) could result in many years of fault-free operation.

Some guidelines and possible causes:

1.Severe burning and silicon damage on surface.
Misaligned heatsinks, incorrect clamping, high current surge due to external short-circuit.

2.Servere burning and silicon damage at gate area.
Insufficient inductance in circuit or high surge current (di/dt).
Insufficient gate drives, faulty or incorrect RC network, gate/aux. cathode cables reversed.

3.Burning and carbon tracking at edge of silicon.
Voltage break-over due to excessive transients, blocking voltage degraded as a result of device running too hot, faulty snubber or transient suppressor components.

4.Silicon damage with "hot-spot" on surface.
Transient or dV/dt failure, snubber or transient suppressor components faulty.

5.Device short circuit (not blocking).
Blocking Voltage breakdown. If no visible damage to silicon, the element is most likely cracked as a result of severe over-clamping, oadly misaligned heatsinks or locating pin, or mechanical shock. It is unlikely that a fracture will be seen due to the tablet being sandwitched between the discs.

6.Device short circuit with exposed silicon.
Over-clamping or possibly misaligned heatsinks.


RCC

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