Don't forget to also model the speaker cables.
I found what seemed like some good modeling information at:
http://www.westhost.com/cable-Z.htm
There is a (dual) speaker model, there, too, IIRC.
There are also some 'standard' amplifier tests that use a capacitor in parallel with a resistor, for the load, driven by squarewaves. Typically, the capacitance is up to 2.2 uF in parallel with 8 Ohms, IIRC. But don't forget to also try smaller capacitances. I have seen cases where 2.2 uF looked fine but 0.1uF made it oscillate.
Also, remember that with squarewaves for the input, everything will depend on their rise and fall time. There is a recent thread about that, here:
http://www.diyaudio.com/forums/showthread.php?s=&threadid=117469
I found what seemed like some good modeling information at:
http://www.westhost.com/cable-Z.htm
There is a (dual) speaker model, there, too, IIRC.
There are also some 'standard' amplifier tests that use a capacitor in parallel with a resistor, for the load, driven by squarewaves. Typically, the capacitance is up to 2.2 uF in parallel with 8 Ohms, IIRC. But don't forget to also try smaller capacitances. I have seen cases where 2.2 uF looked fine but 0.1uF made it oscillate.
Also, remember that with squarewaves for the input, everything will depend on their rise and fall time. There is a recent thread about that, here:
http://www.diyaudio.com/forums/showthread.php?s=&threadid=117469
Arny K. did one some years ago. Try:
newsgroups
rec.audio.tech
rec.audio.high-end
www.pcavtech.com
www.pcabx.com/
newsgroups
rec.audio.tech
rec.audio.high-end
www.pcavtech.com
www.pcabx.com/
- Status
- Not open for further replies.