That strikes me as a good datasheet to use for purposes of focusing the discussion, Magfan.
It's interesting to note, extrapolating from the data that is provided, that its maximum rated power dissipation of 115 watts at a case temperature of 25 degC/77 degF (commonly referred to as "room ambient") does not drop off by a factor of 2 (to 57.5 watts) until the case temperature has risen to 112.5 degC/234.5 degF! And it can go considerably higher than that, as well, if the power that it is called upon to dissipate is reduced such that the junction temperature is kept below the rated maximum of 200 degC/392 degF!
Some related things that should be kept in mind, though:
1)The numbers provided are "maximum" ratings, commonly referred to in other datasheets as "absolute maximum" ratings. Those are the ratings which if exceeded stand a good chance of causing immediate failure. A good design will provide a very large margin between those ratings and the actual operating conditions. As noted in the reference you provided earlier, a rough rule of thumb is that each 10 degC reduction in junction temperature doubles mtbf.
2)"Derating" can refer to two different things. It is used in the datasheet to refer to the falloff in MAXIMUM power handling capability that occurs as case temperature increases. "Derating" is also used to refer to the amount of margin that the design provides between the rated maximums and the actual operating conditions.
3)The amounts by which both case temperature and junction temperature rise above ambient temperature will depend on the adequacy of the heat sinking that is provided, and on how much power the circuit application requires the device to dissipate.
Best regards,
-- Al
