R
Ryan
- Jan 1, 1970
- 0
For a few weeks I have been pondering a scheme to rig up a lot of LED
running lights on my bicycle frame for night time illumination.
At first I was going to use a 9v and then sets of 3-4 in series with a
resistor, but as the voltage of the battery drops, the current seems to
drop so much that I don't know what effect it has on luminosity.
I have no formal electronics education, it's all been from doing and
reading.
I recently purchased a cheap shake-up LED flashlight and I've seen
advertised the crank kind.
It seems I should be able to fashion a generator out of the wheel using
magnets on the spokes, or else pull a small motor out of something and
use that. As I understand from the archives, I need to find a motor
with a magnet rather than an electric field. Would a hard drive magnet
work for the spokes?
If I cause a DC motor to turn, does it output DC power, or AC power? I
thought since a magnet moves first toward, and then away from the
windings (or vise-versa) then this creates first a negative and then
positive voltage; a sine wave rather. Is this correct?
Can the magnets pass next to those windings or do they have to pass
through the middle of it?
Do those flashlights use a special capacitor? I notice it still has
power even several days later. I would expect a capacitor to be
drained?
So, I envsion a battery-free setup with a dozen or so LEDs fashioned
onto the frame (very minimal hardware and very low budget) and one or
more capacitors to keep supplying the current when I have to stop.
If the magnet idea isn't feasible, then I want to make a generator, but
not the impossible to pedal tire eaters I remember from the 1980s. I
used to spin motors from capsela toys and watch them make power.
If a DC motor consumes X watts at its RPM, does it produce approximately
that many watts if made to spin at that same RPM? I presume I need to
determine my current demand which I think will be 20mA times the number
of LEDs and then find a motor to accomodate this. Is a motor's output
voltage dependent on its RPM or is it steady? Would a floppy drive,
CD-ROM, or hard drive have a suitable motor? What about trimming off
the blades of a computer case fan and using that as a motor, or is there
something in an old VCR I could use?
It seems so difficult to design this circuit because voltage can be so
dynamic and from the LED calculators I've used, this has a dramatic
effect on the current the LED uses. I don't want to burn them up, but
I want them to be bright.
I don't know much about regulation, but if that is the answer, should I
regulate voltage, or current?
As I understand, making them flash necessitates a transistor or two,
which is probably beyond me and probably beyond the scope of this
project.
I appreciate any pointers you can offer.
-Ryan
running lights on my bicycle frame for night time illumination.
At first I was going to use a 9v and then sets of 3-4 in series with a
resistor, but as the voltage of the battery drops, the current seems to
drop so much that I don't know what effect it has on luminosity.
I have no formal electronics education, it's all been from doing and
reading.
I recently purchased a cheap shake-up LED flashlight and I've seen
advertised the crank kind.
It seems I should be able to fashion a generator out of the wheel using
magnets on the spokes, or else pull a small motor out of something and
use that. As I understand from the archives, I need to find a motor
with a magnet rather than an electric field. Would a hard drive magnet
work for the spokes?
If I cause a DC motor to turn, does it output DC power, or AC power? I
thought since a magnet moves first toward, and then away from the
windings (or vise-versa) then this creates first a negative and then
positive voltage; a sine wave rather. Is this correct?
Can the magnets pass next to those windings or do they have to pass
through the middle of it?
Do those flashlights use a special capacitor? I notice it still has
power even several days later. I would expect a capacitor to be
drained?
So, I envsion a battery-free setup with a dozen or so LEDs fashioned
onto the frame (very minimal hardware and very low budget) and one or
more capacitors to keep supplying the current when I have to stop.
If the magnet idea isn't feasible, then I want to make a generator, but
not the impossible to pedal tire eaters I remember from the 1980s. I
used to spin motors from capsela toys and watch them make power.
If a DC motor consumes X watts at its RPM, does it produce approximately
that many watts if made to spin at that same RPM? I presume I need to
determine my current demand which I think will be 20mA times the number
of LEDs and then find a motor to accomodate this. Is a motor's output
voltage dependent on its RPM or is it steady? Would a floppy drive,
CD-ROM, or hard drive have a suitable motor? What about trimming off
the blades of a computer case fan and using that as a motor, or is there
something in an old VCR I could use?
It seems so difficult to design this circuit because voltage can be so
dynamic and from the LED calculators I've used, this has a dramatic
effect on the current the LED uses. I don't want to burn them up, but
I want them to be bright.
I don't know much about regulation, but if that is the answer, should I
regulate voltage, or current?
As I understand, making them flash necessitates a transistor or two,
which is probably beyond me and probably beyond the scope of this
project.
I appreciate any pointers you can offer.
-Ryan