Difference between revisions of "High Level Overview"
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− | == | + | The ecu in any car is designed to control how the engine operates. Car manufacturers want their engines to produce power, while still being fuel efficient, reliable, quiet, etc. The way they accomplish this is by defining "maps" which contain modifiable parameters that the ecu will use to make decisions on how the engine should be working. In the case of the Simos18, there are both measured values and modeled values in these maps. |
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+ | === In short: === | ||
+ | The accelerator pedal tells the ecu how much torque the driver wants the engine to produce. | ||
+ | That driver input is referenced against a table that defines the maximum torque available at any given RPM. | ||
+ | That target torque value is referenced against other maps which define how much airflow, followed fuel and timing, the ecu should target to achieve the driver request torque value. |
Revision as of 18:07, 21 September 2020
The ecu in any car is designed to control how the engine operates. Car manufacturers want their engines to produce power, while still being fuel efficient, reliable, quiet, etc. The way they accomplish this is by defining "maps" which contain modifiable parameters that the ecu will use to make decisions on how the engine should be working. In the case of the Simos18, there are both measured values and modeled values in these maps.
In short:
The accelerator pedal tells the ecu how much torque the driver wants the engine to produce. That driver input is referenced against a table that defines the maximum torque available at any given RPM. That target torque value is referenced against other maps which define how much airflow, followed fuel and timing, the ecu should target to achieve the driver request torque value.