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Woah now Gav !
I'm sure you mean milliamps from the solar panel ????
Solar light panels will generally give a bit under 2V and 3mA under a CFL at a few inches distant, that's how I now run the bulk of experiments here. In fact, here's my setup for what's under my work table 13W lamp. 1x pulse motor, 2x LED blocking oscillators on calculator solar panels and a garden light panel powering a pendulum lol, no brightness deficit and 4 circuits running. They all start up when the light goes on.
If I got an amp out of anything it'd be powering the work table light on an inverter, with power to spare !
To connect. In series you'll get 22V, but the same 3.5mA. In parallel you'll get 2.5V and 38.5mA. The paralel method is probably best, due to many transistor circuits found online using similar amounts of power. In fact, at that level you can run a Slayer Exciter or similar and the wireless output might well positively affect your radiant collector coils
I have a few similar panels connected here. 6 of them in parallel make a great AA battery charger, even indoors under the CFL. Outside in full sun, they'll charge a regular Ni-MH 1500mAh battery in about an hour.
For yours, you might think of arranging them in a circle, under the light. That way, each gets the same amount of light.
I'm sure you mean milliamps from the solar panel ????
Solar light panels will generally give a bit under 2V and 3mA under a CFL at a few inches distant, that's how I now run the bulk of experiments here. In fact, here's my setup for what's under my work table 13W lamp. 1x pulse motor, 2x LED blocking oscillators on calculator solar panels and a garden light panel powering a pendulum lol, no brightness deficit and 4 circuits running. They all start up when the light goes on.
If I got an amp out of anything it'd be powering the work table light on an inverter, with power to spare !
To connect. In series you'll get 22V, but the same 3.5mA. In parallel you'll get 2.5V and 38.5mA. The paralel method is probably best, due to many transistor circuits found online using similar amounts of power. In fact, at that level you can run a Slayer Exciter or similar and the wireless output might well positively affect your radiant collector coils
I have a few similar panels connected here. 6 of them in parallel make a great AA battery charger, even indoors under the CFL. Outside in full sun, they'll charge a regular Ni-MH 1500mAh battery in about an hour.
For yours, you might think of arranging them in a circle, under the light. That way, each gets the same amount of light.
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