I will cover off the main points asked in a bit of a dot point form:
- The prime advantage of using the method described in the tech document CTN0036 is that the fuel film has a more accurate representation of the manifold pressure to work with.
When you set the manifold estimate table as a 1:1 for the throttle position, the fuel film needs to be recalibrated to suit this artificial relationship. When the efficiency main table is set to 100, and the estimate table is populated, the fuel film references these estimated manifold pressure values for fuel film calculations. As the fuel film is tied to a manifold pressure value that responds instantly (as it is tied to throttle position), some combinations will require less fast part in the fuel film compared to if it was calculated off a real manifold pressure sensor reading.
- The fuel injector location influences how the fuel injector differential pressure is calculated. It will take in the fuel pressure estimate and regulator type, or in the case of a fuel pressure sensor being present the fuel pressure value for the pressure behind the injector. With before throttle Airbox referenced selected, it uses airbox pressure in place of inlet manifold pressure estimate (for a naturally aspirated setup with ambient pressure as a fallback) or use the boost pressure sensor for above ambient pressure for the pressure at the outlet of the injector.
- When Inlet manifold pressure mode is set to estimate, you gain two efficiency compensations - Engine efficiency airbox pressure compensation and Engine efficiency boost pressure compensation. It should be noted that the airbox pressure compensation should be used for the change in engine pumping efficiency from the airbox pressure - this is not used for changes in ambient pressure. Ambient pressure changes are calculated for automatically with the ambient pressure reading, or ambient pressure estimate on power up.
- Manifold estimate fuel table.png (124.9 KiB) Viewed 9121 times
When the system is setup in accordance with CTN0036, the fuel table is relative to throttle position.
- Engine load normalised.png (592.36 KiB) Viewed 9121 times
Your Engine load normalised challenge will greatly influence the behaviour of things such as your ignition timing. If it is relative to throttle position, it fixes the behaviour of the ignition timing to the throttle. Using normal for engine load normalised, it is closer to a representation of the behaviour of engine load normalised when a manifold pressure sensor is fitted. Setting to throttle also has no provision for you to adjust the ignition timing into boost, as the engine load normalised tops out at 100% with the throttle, and there is no clean way to accommodate the need for less timing under boost. When it is set to normal, this will allow the engine load normalised to track above 100% into boost.