Yes, but we still forget that for that to happen, the input signal to each channel has to be maxing at the same instant in time, otherwise, it is just one channel maxing and tasking the caps and power supply.
In essence, while S&V has an interesting link, it has no real meaning to anything.
Correct. The link showed that five channels driven measured at 100+W, and then seven channels driven dropped it to 55W per channel, presumably due to power supply limitation. So, yeah, you'd pretty much have to run them all at full power with a continuous signal to do that.
Additionally, if one were to bi-amp front speakers only (using a total of four channels, right?), one would never encounter this problem (with this receiver, anyway). So, for those that wish to make simple blanket statements that all receivers are power-supply limited when it comes to bi-amping, please stop. Those types of statements are misleading, wrong, and misinform people that may not know any better (who then start repeating it, and perpetuating the misinformation).
Similarly, an external amplifier can be designed to run all amplifier channels at full power (good design, no power supply limitation), or it could be poorly designed and run out of juice when all channels are driven. Simply having a external amp doesn't necessarily imply that you would or would not be power supply limited. As I'm sure most of you know, a receiver is just an amp (or several) crammed in the same box as a preamp. Any amplifier (whether it's part of a receiver or not) can be well-designed or not.
I don't mean to be rude or start any disagreement; I just want to try to keep the facts straight, and help those that are asking perfectly valid questions.
