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This is meant as a kick off point to get some ideas flowing, so no nit picking of detail - yet! 
Been thinking about boost control, and talking to a friend of mine who has a lot of experience of turbo cars, we've come to the conclusion that electronic control of boost is safest, and allows finest control.
It seems to me that a way of doing it would be by measuring the boost pressure electronically (which is why I was asking Matt about Maplin pressure sensors yesterday) and using this data which is presumably a varying DC voltage related to boost pressure. You could then use a comparator to take this data and feed a solenoid with a variable duty cycle square wave via a voltage to freq converter (at a highish frequency to avoid boost modulation - so solenoid small) which would bleed off pressure off from the waste gate feed.
Obviously when required boost is reached, the soleniod would be bleeding off the correct amount of pressure to have the waste gate open at that pressure.
It should be a simplish matter to tune the hysterysis of the comparator to avoid the initial boost spike common (I'm told) with mechanical boost controllers.
Any thoughts?
Been thinking about boost control, and talking to a friend of mine who has a lot of experience of turbo cars, we've come to the conclusion that electronic control of boost is safest, and allows finest control.
It seems to me that a way of doing it would be by measuring the boost pressure electronically (which is why I was asking Matt about Maplin pressure sensors yesterday) and using this data which is presumably a varying DC voltage related to boost pressure. You could then use a comparator to take this data and feed a solenoid with a variable duty cycle square wave via a voltage to freq converter (at a highish frequency to avoid boost modulation - so solenoid small) which would bleed off pressure off from the waste gate feed.
Obviously when required boost is reached, the soleniod would be bleeding off the correct amount of pressure to have the waste gate open at that pressure.
It should be a simplish matter to tune the hysterysis of the comparator to avoid the initial boost spike common (I'm told) with mechanical boost controllers.
Any thoughts?
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