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#11
March 5th 2010, 08:57
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HI Wally,
I think you misunderstand me a little. You only run this test once, and this is only to tell you how the boost rises against RPM. At 4000rpm you can easily attain 1.6 bar, but at 1500rpm you will struggle to make 0.5bar, 2000 maybe 1 bar. If you set the DTA demand curve at a higher boost pressure (ie 1,6 bar at 2000rpm) than the engine can attain then the controller will wind up, so then it is to slow to open the valve which causes the overboost. With its single calibration for P I and D I doubt the DTA can be made to work to do everything. I personally would only initially use it to try to eliminate wastegate creep. I don't know what makes it particularly advanced, but from the available calibrations it looks extremely simple to me. For the PIDs I work with, we tend to have 10x10 maps with additional multiplication maps to make them work correctly. If you have the means then a standalone boost controller would definately be an easier route with more likelyhood of success. 
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