01-18-2021 05:37 AM
Hello,
I've simulated a number of fundamental types of transistor amplifier in Multisim Live as demonstration circuits for students. Due to COID-19 etc, carrying out experiments practically isn't currently possible.
When plotting a frequency response (gain vs frequency) of these amplifiers practically, it is possible to see the frequency drop-off at both low and high frequencies. In Multisim Live, the same circuits exhibit unrealistic high-frequency behaviour; i.e. the gain doesn't drop off at all, even at ridiculously high frequencies >1THz.
I've always thought this is because the high frequency behaviour isn't part of the SPICE models used, but is this the case? I'm making use of SPICE models for the transistors in each circuit, but not for any of the other components. Is it possible to set resistors/capacitors/wires even to "real-life" behaviour?
Thanks for any suggestions.
01-22-2021 12:58 AM
Hello,
That's actually interesting issue.
Could you please send a screenshot of your scheme and write the parameters that you have set up.
Want to try it on my side and try to understand what is causing this behaviour/issue.
01-22-2021 02:34 AM
Hello,
any class-a type transistor amplifier will exhibit this behaviour in my experience, but the response shown was from a JFET buffer amplifier.
Hopefully this link will work:
https://www.multisim.com/content/wzrtLcPAPStuiZUWemymWH/common-drain-amplifier/
The SPICE model used for the JFET is a BF256B.
Best regards 🙂
01-25-2021 05:38 PM
You can use the Non_Ideal_RLC components to include parasitics.
01-26-2021 02:42 AM
Hi,
is this an option in the paid-for version of Multisim Live?
When I try to change the component model (which is where I presume this setting would be), I only have one option:
Thanks for your help.
01-26-2021 01:57 PM
They are not yet included there. But that would be the place.
They are only available in desktop. For Live you would have to build the equivalent circuit model.
See https://electronics.stackexchange.com/questions/472217/equivalent-circuit-of-a-non-ideal-resistor
01-27-2021 02:35 AM
Thanks very much for the info 🙂