First and foremost, thank you very much to anyone who takes the time to comment, I really do appreciate it. I usually take the time to learn on my own, but I have a bit of a time crunch and I need to see if my idea is viable or not. I have genuinely looked for prior threads on this topic, but I couldn't find anything related to my concept (or I was unable to do the mental gymnastics to comprehend what I was reading).
A while ago I built a simple solar USB charger to charge my smartphone or battery pack while on ultra-long distance hikes. Generally speaking it worked well - in unobstructed sunlight - but
if there was a cloud or I briefly passed under a tree, the current from the solar panel would take a dive and the smartphone would stop recharging. As you would expect.
Here is a (super) simplistic breakdown of what my charger looks like now:
5.5V 1000mA (peak) solar panel --> Schottky Diode 1N5817 --> DC-DC converter tuned to output 5V to the module's USB port --> Smartphone/battery pack.
I was hoping to rectify my problem by adding a Super Capacitor between the solar panel and the DC-DC converter (or should it be between the DC-DC converter and the USB output?).
I'm not looking for a miracle, maybe just 2-5 seconds of "buffer".
Is this do-able? If so, what capacitance and voltage rating should I be looking at? Locally I've found some Kemet 5.5V 1.5F SuperCaps, but I'm thinking that I probably need a higher voltage part and maybe higher capacitance too.
Once again, any guidance is appreciated and I will be diving deeper into some EE books as soon as I can
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