The SMBAJ33CA has a breakdown voltage VBR of typ. 38.6V -- at 1mA.
The generated voltage of the regenerated energy depends very much on the rotating mass and the braking acceleration. The faster/stronger you brake, the higher this voltage will be. Let's assume that the motor has a reverse current of 20A when it is switched off, then (for a conservatively assumed RD of 0.884ohms of the 8/20µs pulse) this results in a voltage difference Vdiff = 0.884ohms * 20A = 17.68V, which is added to the breakdown voltage. At 20A there is therefore a voltage of approx. 38.6V+17.68V = 56.28V at the SMAJ. Even at ‘only’ 10A, this would still be 47.44V. And for a 10/1000µs pulse with 1.7ohms, the voltage difference roughly doubles.
Now we look at the data sheet of the VNHD7008AY and see that the absolute max rating of VCC = 38V (table 4).
Can VNHD7008AY survive your scenario, even at VBR at 1mA?
Please note that exceeding the absolute max ratings will (not can) lead to destruction.
The problem is simply that a TVS has a non-negligible curve steepness that is relatively low for an application like this and the current does not go to infinity from VBR. You would therefore have to find a TVS whose voltage remains below the absolute max rating of VCC = 38V at the (break) current to be assumed and which, on the other hand, does not already conduct too strongly at normal operating voltage and thus produces power losses.
Otherwise I would like to refer you to the other thread mentioned above where the same problem was discussed.
Hope that helps?
Regards
/Peter
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