Oh, yeah.
It does detailed analysis of resistors, caps and coils.
Also does full impedance plot of a driver in the cabinet (which you need for crossover simulation) as well as the finished speaker like you often see in Stereophile:
Which is a great troubleshooting tool. When you finish building a speaker, you compare your simulated crossover impedance to measured. This will often show bad parts or bad solder joints. If a speaker sounds odd, you can test the impedance to see if the two sides match.
Stuff like that.
It does detailed analysis of resistors, caps and coils.
Also does full impedance plot of a driver in the cabinet (which you need for crossover simulation) as well as the finished speaker like you often see in Stereophile:
Which is a great troubleshooting tool. When you finish building a speaker, you compare your simulated crossover impedance to measured. This will often show bad parts or bad solder joints. If a speaker sounds odd, you can test the impedance to see if the two sides match.
Stuff like that.
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