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This paper presents an engine management system to control a 4-stroke two-cylinder motorcycle engine. At the heart of the system is a microcontroller based reference design engine control unit. This works together with a crank wheel sensor, throttle position sensor, oxygen sensor, manifold pressure sensor, injectors, ignition coils and fuel pump. This system has the capability to detect engine position, sense throttle position, calculate mass airflow from air temperature, control fuel injection timing and amount, control spark timing and dwell. It has idle control with stepper motor and closed-loop feedback of oxygen levels in the exhaust. To achieve fast closed-loop control, the controller turns on an oxygen heater. Serial communication via KWP2000 is used for reprogramming of the controller and reading diagnostic codes. The main goal of this system is to meet emission requirements and provide OBD capability. Some results on an actual motorcycle will be presented.

The constant motivation for lower fuel consumption and emission levels has always been in the minds of most auto makers. Therefore, it is important to have precise control of the fuel being delivered into the engine. Gasoline Port fuel injection has been a matured system for many years and cars sold in emerging markets still favor such system due to its less system complexity and cost. This paper will explain injection control strategy of today during development, and especially the injector dead-time compensation strategy in detail and how further improvements could still be made. The injector current profile behavior will be discussed, and with the use of minimum hardware electronics, this paper will show the way for a new compensation strategy to be adopted.