>> Could this be a good Tip..: ,,Run Zener's (in all cases of sizes /zenerVoltages) to around 20mW - 60mW. ,,Say fex.. '30-mW' (milli-Watts). _One could in addition put in a current-source driving (for this case, trough this 6v2-zener) 5 milli-Amps trough the Zener. ,,-->No need to run Zeners towards their socalled 'max-specs'. //Thanks for interesting videos and good content.
In addition to running the Zener at a sensible current choose a 5v1 Zener as these usually have a near zero temperature coefficient. Lower voltage Zeners have an increasingly negative temperature coefficient and higher voltage Zeners have an increasingly positive temperature coefficient.
I always find it useful and informative ❤
You are save my job🎉
I need a good power supply. wanted to make myself to save money. I dont have to do the experiments now. Thanks a lot.
I'm learning alot.
From 24:20 it's like an eye operation!
Great video. Thanks
Nice. Are you going to cover current regulation?
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>> Could this be a good Tip..: ,,Run Zener's (in all cases of sizes /zenerVoltages) to around 20mW - 60mW. ,,Say fex.. '30-mW' (milli-Watts).
_One could in addition put in a current-source driving (for this case, trough this 6v2-zener) 5 milli-Amps trough the Zener. ,,-->No need to run Zeners towards their socalled 'max-specs'. //Thanks for interesting videos and good content.
In addition to running the Zener at a sensible current choose a 5v1 Zener as these usually have a near zero temperature coefficient. Lower voltage Zeners have an increasingly negative temperature coefficient and higher voltage Zeners have an increasingly positive temperature coefficient.
👍👍👍👍