i would precisely need to know the magnets motion as thats what the project is about...... im emulating the magnet to be a human limb..... and the limbs motion if a magnet was attached to it ... generates how much power.......
i would precisely need to know the magnets motion as thats what the project is about...... im emulating the magnet to be a human limb..... and the limbs motion if a magnet was attached to it ... generates how much power.......
If it was just a lab test rig, I would use a scope in the way I suggested, you could easily work out the motion of the magnet, the average/peak power and points of maximum energy generation from the scopes waveform.
You could make drive and frequency adjustments in real time while you observe the waveform.
If it was just a lab test rig, I would use a scope in the way I suggested, you could easily work out the motion of the magnet, the average/peak power and points of maximum energy generation from the scopes waveform.
You could make drive and frequency adjustments in real time while you observe the waveform.
hi,
When you do the lab tests, use a load resistor across the generator coil, without a load the waveforms will be misleading.
The load resistor should be close in value to the actual load in the final design.
hi,
When you do the lab tests, use a load resistor across the generator coil, without a load the waveforms will be misleading.
The load resistor should be close in value to the actual load in the final design.
hi
i have a cylindrical magnet with B= 4600 guass on each face. and a coil 20 mm in length.
if the magnet is moving at a frequency of 21 hz for every 140ms ,can i use the formula for dynamically induced emf e=Blv to calculate the voltage induced?
hi,
When you do the lab tests, use a load resistor across the generator coil, without a load the waveforms will be misleading.
The load resistor should be close in value to the actual load in the final design.