p5freek,
I'm not saying its not possible to raise boost. I'm also not saying that you won't see an increase in power from raising the boost.
What I am saying is the compressor map for the turbo in the MPS 6 is already leaving its effeciency range, at stock boost, past 5500 rpm.
Every turbo has a sweet spot, or an "island". This is the area where the turbo performs best, with the least amount of heat generated for the work done. This is the center part of the compressor map. (looks like an island).
As you leave the center of the compressor map, more and more heat is generated by the turbo. Eventually it reaches the point where the turbo is actually doing nothing but blowing hot air, and is incapable of actually providing the CFM required by the engine, regardless of the psi you set the car too.
At 19psi, on the compressor map shown for a
Hitachi-Warner K04 (the turbo in the MPS 6), the turbo is already dropping in efficency as early as 4,000 rpm. By 5,000 you're completely off the chart, and by 6,000, you're so far off the chart it's not even funny.
http://www.turbosaturns.net/articles/compressor%20maps.htm
http://forums.turbobricks.com/archive/index.php/t-5981.html
The effect of lower compressor efficency is more heat. More heat means a less dense charge, which results in less power. There is a cross-over point where the amount of heat produced by the turbo being out of its efficency range exceeds the amount of power gained by the increase in psi.
If you check out either of those two book's I've mentioned, you'll see that increasing boost is actually one of the last recommended ways of increasing power in an FI engine. There are much smarter and safer ways of attacking power gains then fiddling with boost control.
