Simple one hopefully
Why is it that there is an "auto" and a "manual" boost map? Which one is primarily used by the ECU, and when / why is the other one ever used?
Many thanks,
James
Moderator: Freon
this is how ecutek achieve their dual-boost maps - mapswitch.If there were some signal which could be limited to switching the boost map then we could have two versions of boost map to switch between at our pleasure (albeit probably between engine stop / start).
Houdini wrote:Something I've been pondering in what is the relation to Max Wastegate and Desire Boost Tables and how does boost tuning work? Is it okay to max the wastegate table and just use desire boost table?
Houdini wrote:Something I've been pondering in what is the relation to Max Wastegate and Desire Boost Tables and how does boost tuning work? Is it okay to max the wastegate table and just use desire boost table?
FrSTi wrote:Houdini wrote:Something I've been pondering in what is the relation to Max Wastegate and Desire Boost Tables and how does boost tuning work? Is it okay to max the wastegate table and just use desire boost table?
The stock boost control for MT is using the following tables :
- a boost target 3D map (absolute pressure target)
- an initial duty 3D map (% solenoid duty to start with)
- a maximum duty 3D map (% solenoid not to exceed)
- a proportionnal continous compensation 2D table (% duty correction/boost delta error)
- a positive integral 2D table (% duty error learning/positive delta)
- a negative integral 2D table (% duty error leaning/negative delta)
- an atm. pressure based duty compensation 2D table
- an intake air temp. based duty compensation 2D table
- a coolant temp. based duty compensation 2D table
- a gear compensation table (based on 5 gears boost % correction, even with 6MT)
To make a long story short...
The boost target 3D map is the target (is it ?)
The initial wastegate duty is the map providing % duty applicable for a certain rpm and tps (these are the axis applicable for all 3D boost tables, even if scaling can be different), this duty is then adjusted by the Ecu to stick to the target boost, within the max duty values applicable in the other 3D, with regard to the proportionnal continous rules and to the error learned in the integrales...
On top of this basic routine, you can find some additionnal corrections, as listed above (I think most of these are explicit)...
Hope I've been clear enough (thanks god it's friday), hope this clarifies
calvinc wrote:this is how ecutek achieve their dual-boost maps - mapswitch.If there were some signal which could be limited to switching the boost map then we could have two versions of boost map to switch between at our pleasure (albeit probably between engine stop / start).
calvin.
Houdini wrote:calvinc wrote:this is how ecutek achieve their dual-boost maps - mapswitch.If there were some signal which could be limited to switching the boost map then we could have two versions of boost map to switch between at our pleasure (albeit probably between engine stop / start).
calvin.
Going to have to give this a try. I'm currently running A4SGE01C from an 4EAT in my MT 2002 USDM WRX. Not quite sure which map it is using yet?
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