While I wait for my CMG/Berger infinity ultra, I was thinking of adding a DC-to-DC converter to the LED light I now own.
It's a completely unremarkable 3-white-bluish-LED, 3-AA-cell light built by... I have no idea. It's got "LED-LITE" and "super-bright" stamped on the casing (but it isn't). There are no other indications of the people responsible for its existance. I bought it for Not Much at the local electronics store.
It's a very simple circuit... no converter, no regulator, just three AA cells in series, a resistance and 3 leds.
It's made like this (I forgot to take a picture of it, so I just opened the GIMP and quickly drew it. I am perfectly aware of the awfulness of the result, by the way):
(should the image not show, just copy-paste the link)
That black dot is the click-switch. It sits atop a square rubber protrusion that runs for the whole length of the battery compartment. Apart from the small section of it that contains the switch, the rest is just plain rubber. It'd be no big deal to hack a nice compartment in it with my dremel.
Now, the LEDs aren't driven at anything like their maximum capacity (either that or their maximum output really sucks)... I'm guessing this light has a monstrous battery life (I haven't used it enough to know for sure).
What I'm looking for is for some more light output from the light (driving the leds harder) and a way to regulate the voltage from the batteries, so that when they discharge or when I use NiCD cells the output doesn't sag.
Since I'm good at tinkering with stuff but know close to nothing about actual electronic circuits... what do I need to make myself a small DC-to-DC regulator that always spits out the same voltage no matter what input it gets?
It's a completely unremarkable 3-white-bluish-LED, 3-AA-cell light built by... I have no idea. It's got "LED-LITE" and "super-bright" stamped on the casing (but it isn't). There are no other indications of the people responsible for its existance. I bought it for Not Much at the local electronics store.
It's a very simple circuit... no converter, no regulator, just three AA cells in series, a resistance and 3 leds.
It's made like this (I forgot to take a picture of it, so I just opened the GIMP and quickly drew it. I am perfectly aware of the awfulness of the result, by the way):
(should the image not show, just copy-paste the link)
That black dot is the click-switch. It sits atop a square rubber protrusion that runs for the whole length of the battery compartment. Apart from the small section of it that contains the switch, the rest is just plain rubber. It'd be no big deal to hack a nice compartment in it with my dremel.
Now, the LEDs aren't driven at anything like their maximum capacity (either that or their maximum output really sucks)... I'm guessing this light has a monstrous battery life (I haven't used it enough to know for sure).
What I'm looking for is for some more light output from the light (driving the leds harder) and a way to regulate the voltage from the batteries, so that when they discharge or when I use NiCD cells the output doesn't sag.
Since I'm good at tinkering with stuff but know close to nothing about actual electronic circuits... what do I need to make myself a small DC-to-DC regulator that always spits out the same voltage no matter what input it gets?