Difference between revisions of "Characterizing the response of a solenoid"

From Mech
Jump to navigationJump to search
 
Line 5: Line 5:
You should provide the user with the ability to control three parameters of the on-off pulsed forcing: the frequency of the on-off pulsed forcing, the duty cycle, and the amplitude (the voltage or current applied to the coil when it is energized). You will mount an [[Accelerometers|accelerometer]] on the shaft of the solenoid and use an oscilloscope to simultaneously look at the control voltage to the solenoid and the acceleration of the solenoid. Try frequencies from 10 Hz to hundreds of Hz. For what frequencies, duty cycles, and amplitudes does the solenoid shaft hit stops, and for what values do you get approximate square wave acceleration profiles? Summarize your results in text and post clear images of the oscilloscope for a few representative choices.
You should provide the user with the ability to control three parameters of the on-off pulsed forcing: the frequency of the on-off pulsed forcing, the duty cycle, and the amplitude (the voltage or current applied to the coil when it is energized). You will mount an [[Accelerometers|accelerometer]] on the shaft of the solenoid and use an oscilloscope to simultaneously look at the control voltage to the solenoid and the acceleration of the solenoid. Try frequencies from 10 Hz to hundreds of Hz. For what frequencies, duty cycles, and amplitudes does the solenoid shaft hit stops, and for what values do you get approximate square wave acceleration profiles? Summarize your results in text and post clear images of the oscilloscope for a few representative choices.


Note: your PIC may not be involved in this assignment at all. You could decide to use a circuit based on a [[555 Timer]] and make the user's control inputs be from potentiometers.
Note: your PIC may not be involved in this assignment at all. You could use a function generator to generate the frequency and duty cycle you want, and use the amplitude to (perhaps) control a transistor operating in the linear regime to deliver different amounts of current to the solenoid.

Revision as of 23:42, 26 January 2009

Original Assignment

Your job is to characterize the response of a solenoid to on-off pulsed forcing. The solenoid should be equipped with a return spring so that the solenoid returns to a home position when the coil is de-energized.

You should provide the user with the ability to control three parameters of the on-off pulsed forcing: the frequency of the on-off pulsed forcing, the duty cycle, and the amplitude (the voltage or current applied to the coil when it is energized). You will mount an accelerometer on the shaft of the solenoid and use an oscilloscope to simultaneously look at the control voltage to the solenoid and the acceleration of the solenoid. Try frequencies from 10 Hz to hundreds of Hz. For what frequencies, duty cycles, and amplitudes does the solenoid shaft hit stops, and for what values do you get approximate square wave acceleration profiles? Summarize your results in text and post clear images of the oscilloscope for a few representative choices.

Note: your PIC may not be involved in this assignment at all. You could use a function generator to generate the frequency and duty cycle you want, and use the amplitude to (perhaps) control a transistor operating in the linear regime to deliver different amounts of current to the solenoid.