Fallingwater
Flashlight Enthusiast
I'm planning a homemade blinder using a pair of SST-90s, but there are two questions I need to address before starting the project.
The first is: just how efficient are these? I know their maximum specs are 3.9V at 9A, which makes for a rather impressive 35.1 watts of input power; how many of these watts actually get turned into light?
Second question: I know people have been direct-driving SST90s from IMR18650 cells, with the circuit stabilizing at about 10 amps on fresh cells (I imagine this doesn't last long). But: is it possible to do the same thing with lithium-polymer cells meant for RC models?
Reason I'm asking is because I can get them a fair bit cheaper than IMR18650s, and they'd fit the form factor I'm planning better, but they are commonly specced for very high C ratings. I'm worried they might overdrive SST-90s a lot harder than IMR18650s do.
Thanks :)
The first is: just how efficient are these? I know their maximum specs are 3.9V at 9A, which makes for a rather impressive 35.1 watts of input power; how many of these watts actually get turned into light?
Second question: I know people have been direct-driving SST90s from IMR18650 cells, with the circuit stabilizing at about 10 amps on fresh cells (I imagine this doesn't last long). But: is it possible to do the same thing with lithium-polymer cells meant for RC models?
Reason I'm asking is because I can get them a fair bit cheaper than IMR18650s, and they'd fit the form factor I'm planning better, but they are commonly specced for very high C ratings. I'm worried they might overdrive SST-90s a lot harder than IMR18650s do.
Thanks :)