Measuring a DC motor's inductance

AI Thread Summary
Various methods exist for measuring the inductance of a 12V DC motor, including experimental techniques and the use of an LCR meter. While dedicated instruments like an LCR meter provide faster and more consistent results, experimental methods can offer educational insights. The purpose of measuring inductance often relates to designing a digital controller, which requires understanding the motor's electrical characteristics. For such applications, converting the open-loop transfer function to z-transforms is essential for accurate control system design. Resources and further explanations on z-transform applications in control systems can enhance understanding for those involved in related projects.
bbq_build
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In general - a dedicated instrument will yield better results when used within it's limits ( and more consistent). But to measure a hobby motor, doing the experimental approach, using the techniques would be more educational. Given the two methods I would be tempted to do both and see how close they come out.

If you have access to an LCR meter, it would of course be faster, more convenient.
 
bbq_build said:
If I want to measure the inductance of a 12V DC motor . . . .
Why do you want to measure? What's the purpose?

Say you going to make a digital controller for this motor. Having measured L and R, you will have to z-transform a transfer function, taking calculation time delay in the controller into consideration, and so on. If that's the case, there is smarter way, measuring the z-transformed of the transfer function directly.

Please respond if interested.
 
Hesch said:
Why do you want to measure? What's the purpose?

Say you going to make a digital controller for this motor. Having measured L and R, you will have to z-transform a transfer function, taking calculation time delay in the controller into consideration, and so on. If that's the case, there is smarter way, measuring the z-transformed of the transfer function directly.

Please respond if interested.

Please, I'm currently working on a project on centrifuge modeling, and my supervisor has mentioned to me, what you are saying on converting the open-loop transfer function to z transforms. Can you kindly shed light on 'why' the transfer function should be converted to z transforms? Or I'll appreciate if
you can refer me to any material that'd be of help. Thanks
 

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