In datasheet you can see that the currents are different.
For any TVS diodes, Ipp(8-20)> Ipp(10-1000). For an example, see datasheet SM15TY
I do not understand why the current depends on the overvoltage time?
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\$\begingroup\$ Please edit your post to include a link to the datasheet so we can get context. \$\endgroup\$– TransistorCommented Oct 14, 2017 at 23:30
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1\$\begingroup\$ Because the diode heats up while shorting that current. The longer the overvoltage is applied, the more heat it has to store before it can dissipate it. The latter is a very slow process. \$\endgroup\$– JankaCommented Oct 15, 2017 at 0:14
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Disclaimer: I know very little about these but I found the question interesting.
A search for "transil application note" brought up ST AN316.
Figure 1. From the application note it appears that there are two standard test pulses used to test these devices. Note that the average current is taken as the time from the start to the 50% decay point - the second number in the 8/20 or 10/1000 specification.
Reading on:
Transil peak power dissipation
One of the goals of the Transil is to protect equipment against transient disturbances. The duration of these transients is linked to the application where the Transil operates. For example electrostatic discharges (ESD) are in the range of tens of ns while industrial strikes are within tens of µs, telecom over-voltages, hundreds of µs and automotive surges tens of ms.
The performance of the Transil are given in the datasheet for both 8/20 µs and 10/1000 µs waves (VCL, IPP), otherwise the curve peak pulse power versus pulsed duration (see Figure 3) allows the designer to choose the right Transil for his application.
There are some example calculations in section 5 of the AN. They might be worth a read. I haven't quite figured them out yet.
answered Oct 15, 2017 at 0:21
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\$\begingroup\$ Thanks for investigating this. I have seen the same notation (8/20 and 10/1000) in other components. I think SCR's. I guess is is somewhat common to spec pulses that way. \$\endgroup\$ Commented Oct 15, 2017 at 3:38