Had a bit of a win tonight with my boost/wastegate springs/logs etc. Since I put the new turbo in I haven't been fully happy with the boost delivery and as a result of that the power of it either. My turbo has had the wastegate port taken out and the mani ported which means more pressure on the back of the wastegate flap. If the psi is acting on a bigger area then it has to be exerting more force making the standard wastegate actuator spring a bit weak. After testing the standard spring it cracked almost immediately and went to full stroke before even 5psi so I'm not sure how that can be called a 6psi spring and it wasn't up to the task. I then ran the turbosmart actuator with a 7psi spring but had to back off the preload to nearly zilch. Because the mani and turbo are flowing more and combined with the 7psi spring it was tending to overboost (1.5bar - 1.6 bar) and backing off the preload got that under control, but then I found in the logs that the boost control solenoid was all over the place in its duty cycle trying to keep the boost stable at high rpm. So then I went to the 10psi spring. I needed the full solenoid MBC bypass to get the peak boost under control and then had a nice flat boost curve. The problem was though that in having slightly too much boost in the higher rpm range when normally it would tail off, it was puling bits of timing above 5000rpm but not below, not even at the boost peak. So I was high rpm timing limited which meant I couldn't get any real timing into it to pep up the bottom end. The car suffered for it at Bathurst where obviously on such a fast track the car was living at higher revs yet timing was being pulled - I was noticeably down on power + it was hot which didn't help.
So what I remembered was a story I read ages ago about the earlier WRX's and how Subaru was using restrictor pills in the solenoid feed tubes to tailor the boost curves to the many different wastegate springs those cars had. Maybe their mapping was different but the were using a hardware mod to to set the boost levels. Not only did they put restrictors in the line that feeds the boost signal to the solenoid to raise boost, but they also used them in the line that leaves the solenoid and empties into the TIP to drop boost levels (probably for stiffer wastegate springs). I dug out the list of cars/wastegtae springs/restricter sizes and their locations. If you look at the first line, the 93-96 WRX used a 2.0mm restricter pill inserted into the line between the solenoid and the TIP.
MY93-96 ... 3 port solenoid 2.0mm restrictor fitted into the vent pipe between solenoid lower port and intake
MY97 (Euro) ... 2 port solenoid 1.2mm restrictor fitted between the turbo and the tee piece
MY97 (JDM) ... 2 port solenoid 0.9mm restrictor fitted between the turbo and the tee piece
MY98 (Euro) ... 2 port solenoid 1.2mm restrictor fitted between the turbo and the tee piece
MY98 WRX (JDM) ... 2 port solenoid 0.9mm restrictor fitted between the turbo and the tee piece
MY98 Sti 4 ... 3 port solenoid 1.5mm restrictor fitted between the turbo and the solenoid adjacent to the solenoid top port
MY99 (Euro) ... 2 port solenoid 1.2mm restrictor fitted between the turbo and the tee piece
MY99 (JDM) ... 2 port solenoid 0.9mm restrictor fitted between the turbo and the tee piece
MY00 (Euro) ... 2 port solenoid 1.2mm restrictor fitted between the turbo and the tee piece
MY00 (JDM) ... 2 port solenoid 0.9mm restrictor fitted between the turbo and the tee piece
MY01-05 (Euro) ... 2 port solenoid 1.2mm restrictor fitted between the turbo and the tee piece
MY01-05 STi ... 2 port solenoid 0.9mm restrictor fitted between the turbo and the tee piece
MY06/MY07 both WRX and Sti 2 port solenoid 0.9mm restrictor between turbo and tee piece
By doing this, at the time when the solenoid is trying to bleed boost away from the wastegate to keep it closed or less open, a restriction in the line to the TIP will have the effect of holding residual pressure against the solenoid so that when it opens again a bigger burst of pressure will get through onto the wastegate to help open it. The bigger the restriction the lower the boost curve will run.
I put an adjustable flow control into the line and closed it right down which put me onto spring pressure = 7psi. As I then opened it up the boost went up and I was able to get it bang on. This proved that it would work so I then removed the flow controller, found a pneumatic fitting at work that had about the same restriction as the flow controller when you blew through it and pushed it up inside the line from solenoid to TIP. Things normally never work first go but this did. The boost curve is bang on. I set up the 7 psi spring/actuator as you should with 2-3mm preload this time on the nut and with the other bypass junk removed and a little restricter pill hiding in one of the pipes went for a drive. It smoothly rises to a 1.4bar peak, caps for a bit and then trails down just like the tune had it doing on the weaker spring. If it had been lower than where I wanted it then I'd have had to drill the restrictor piece out ever so slightly, bit by bit till I got it. If it had been overboosting still I'd have had to find a slightly smaller restricter.The restricter has just taken the boost curve from where it rose to cos the turbo/mani was flowing better ,and has adjusted it down to where the tune wants to see it, but the kicker is it is running with a stiffer spring now that is better suited to the tubo hardware and feels sweet. I'll start adding timing/logging over the next few nights and see where it ends up but thought it was worth mentioning as a tidy, undetectable, factory utilised and effective way of getting an elevated boost curve back in line with a tunes specified boost values if needed. Obviously i'll also have to check the injector duty cycles especially at peak torque to check that I have headroom. anyway we'll see how it ends up!
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