tirebiter
Mar24-11, 10:25 PM
A stationary winding has 1/2 turn and is oriented nearly parallel to the axis of a shaft. The shaft has a series "N" amount of tiny "horseshoe" shaped permanent magnets each with "G" magnetic strength, mounted in a stacked/skewed arrangement. The North/South poles point away from the axis of the shaft. The North/South poles pass close "Cl" (clearance) to the single turn (or less) of the coil winding when the shaft is rotated. The skew of the magnet stack is such that the angle is opposite from the winding although at a very slight (A) angle.
Given a speed of 1ft/min, magnet pole(s) past the winding, how much current will be produced in the winding ?
Not sure I'm asking the right question here. I have only been able to find formulas for electrical generation concerning 90 degree angles between the direction of the magnet's motion and the winding. More info and a diagram of the unit is avaialble for viewing.
Given a speed of 1ft/min, magnet pole(s) past the winding, how much current will be produced in the winding ?
Not sure I'm asking the right question here. I have only been able to find formulas for electrical generation concerning 90 degree angles between the direction of the magnet's motion and the winding. More info and a diagram of the unit is avaialble for viewing.