Please login with a confirmed email address before reporting spam
Posted:
5 years ago
13.11.2019, 17:06 GMT-5
Updated:
5 years ago
13.11.2019, 12:06 GMT-5
- If you want to calculate impedance you should be doing a frequency dependent (sinusoidal steady state) study.
- In many modules you can assign a Terminal boundary condition and the terminal impedance is available as a global variable.
- There was no model attached. Be sure to remove the solutions before posting.
1. If you want to calculate impedance you should be doing a frequency dependent (sinusoidal steady state) study.
2. In many modules you can assign a Terminal boundary condition and the terminal impedance is available as a global variable.
3. There was no model attached. Be sure to remove the solutions before posting.
Please login with a confirmed email address before reporting spam
Posted:
5 years ago
14.11.2019, 05:05 GMT-5
Updated:
5 years ago
14.11.2019, 05:07 GMT-5
Hi Dave,
Thank you for reply. Sorry, it was my mistake. The model was attached.
Would it be possible to look at the model?
I have defined bipasic stimulus pulse and applied a boundary.
Kind regards,
Enver
Hi Dave,
Thank you for reply. Sorry, it was my mistake. The model was attached.
Would it be possible to look at the model?
I have defined bipasic stimulus pulse and applied a boundary.
Kind regards,
Enver
Please login with a confirmed email address before reporting spam
Posted:
5 years ago
14.11.2019, 10:16 GMT-5
Updated:
5 years ago
14.11.2019, 05:16 GMT-5
See #1. You can only calculate an impedance for sinusoidal excitation. Impedance is only defined for sinusoidal steady state excitation.
See #1. You can only calculate an impedance for sinusoidal excitation. Impedance is only defined for sinusoidal steady state excitation.
Please login with a confirmed email address before reporting spam
Posted:
5 years ago
18.11.2019, 05:40 GMT-5
Hi Dave,
Thank you for your comment.
I have to apply bihasic rectangular signal as an input. Do you mean I can not calculate impedance if I apply any types of signals wavefrom but sinusoidal?
Kind regards,
Enver
Hi Dave,
Thank you for your comment.
I have to apply bihasic rectangular signal as an input. Do you mean I can not calculate impedance if I apply any types of signals wavefrom but sinusoidal?
Kind regards,
Enver
Please login with a confirmed email address before reporting spam
Posted:
5 years ago
18.11.2019, 15:24 GMT-5
Updated:
5 years ago
18.11.2019, 10:24 GMT-5
Hi Dave,
Thank you for your comment.
I have to apply bihasic rectangular signal as an input. Do you mean I can not calculate impedance if I apply any types of signals wavefrom but sinusoidal?
Kind regards,
Enver
That is exactly what I am saying. Impedance is defined as the ratio of the (complex) voltage phasor to the (complex) current phasor. Phasors represent a sinusoidal signal that has been applied for a very long time.
>Hi Dave,
>
>Thank you for your comment.
>I have to apply bihasic rectangular signal as an input. Do you mean I can not calculate impedance if I apply any types of signals wavefrom but sinusoidal?
>
>Kind regards,
>Enver
That is exactly what I am saying. Impedance is defined as the ratio of the (complex) voltage phasor to the (complex) current phasor. Phasors represent a sinusoidal signal that has been applied for a very long time.
Please login with a confirmed email address before reporting spam
Posted:
5 years ago
09.12.2019, 06:36 GMT-5
Updated:
5 years ago
09.12.2019, 06:37 GMT-5
Hi Dave,
Thank you for your suggestions. Do I need to just apply preiodic sinusoidal signal to a boundary then calculate impedance variation (I belive I can do terminal voltage/terminal current ) or do I need to define an equation for the impedance variation?
If it is possible, can you please guide me on my model?
Kind regards,
Enver
Hi Dave,
Thank you for your suggestions. Do I need to just apply preiodic sinusoidal signal to a boundary then calculate impedance variation (**I belive I can do terminal voltage/terminal current** ) or do I need to define an equation for the impedance variation?
If it is possible, can you please guide me on my model?
Kind regards,
Enver