SparkFun Electronics will be closed in observance of memorial day on Monday, May 29th. We will resume normal business hours on Tuesday, May 30th. Any orders placed after 2pm Mountain Time on Friday, May 26th will process and ship out on Tuesday, May 30th.

Member #33885

Member Since: February 28, 2008

Country: United States

  • A very newbie question - is there a good self-taught book/books/online course that will teach me how to understand circuit design, especially with components? I really want to do this stuff, and I’ve got basic electronics skills, but the leap from a simple Arduino hack to something useful and reasonably complex is eluding me. This kind of thing helps, but I’m foundering around the scale-up issue - even breaking the circuit down into smaller sub circuits doesn’t always help.

  • Latest on the ESP32 forums Is that it should be available in August.

  • I’d like to see more support for other Li battery technologies from Sparkfun. I’ve been working on remote sensors a lot lately (I want to monitor my solar hot water system, and there is no mains power anywhere near the system). I see temperatures down below zero (degrees F) at times, even though the sun keeps shining. NiCd/NiMH is out because it just loses too much power to be effective at temperatures much below freezing. I personally am very uncomfortable with using poly-envelope Li-Ion for these projects, mostly because Li-Ion WILL catch fire if charged too hard (not likely with solar as the input, but possible). I vastly prefer LiFePO4, an alternative chemistry that has many of the advantages of Li-Ion and few of the disadvantages (like, it will smoke, but won’t catch fire). I also prefer the 18650 or 14500 battery form factors, mostly because they are more rugged than the plastic envelope flat-pack Li-Ion cells. The other advantage to LiFePO4 is that they are increasingly getting used in solar landscape lighting (mostly the 14500 form factor) so finding the cells is becoming easier and cheaper. LiFEPO4’s biggest drawbacks are that it’s a nominal 3.2V cell, so you really need a two-cell pack (or up-conversion) for almost everything, and it takes a different charge voltage than Li-Ion (charging current is 3.6V rather than the 4.2 for Li-Ion). Sparkfun’s Solar Buddy uses a controller chip that will handle the LiFePo4, but you have to hack surface-mount resistors on the board to make that work (how about some jumpers, folks?). At the moment, I’ve hacked together charge controllers from stuff I’ve found on eBay and elsewhere, but I’d love to see a slightly more broad approach to supporting different chemistries from Sparkfun. Maybe even an integrated solar cell-LiFePO4-MPPT charger IoT remote sensor battery pack bundle? Cobbling these together isn’t that hard, but having one I cold just buy off the shelf (with a nice waterproof enclosure, say) would make things simpler…

  • I’ll second the vote for the Simpson strong tie brackets; they are very reasonably priced, and they build great benches (and shelves, as it turns out). They can easily be pulled down and rebuilt (I’ve done it several times with one of my benches). I used ¾ MDF for the bench top, and laminated it with formica (surprising easy to do, and doesn’t take anything more complicated than a paint roller and j roller).

No public wish lists :(