1. 1 Electronic Fuel Injection Roger Bortignon

2. 2 Electronic Fuel Injection during the late 1970’s and early 1980’s, government imposed minimum fuel mileage standards and tougher pollution control standards meant the end of the carburetor during the late 1970’s and early 1980’s, government imposed minimum fuel mileage standards and tougher pollution control standards meant the end of the carburetor Electronic Fuel Injection (EFI), was developed to help manufacturers build vehicles that use less fuel, run cleaner and perform better Electronic Fuel Injection (EFI), was developed to help manufacturers build vehicles that use less fuel, run cleaner and perform better

3. 3 What is EFI? EFI uses a computer called a Powertrain Control Module (PCM) to determine how much fuel the engine needs EFI uses a computer called a Powertrain Control Module (PCM) to determine how much fuel the engine needs the computer turns on a fuel injector which sprays fuel, under pressure, into the intake manifold or directly into the cylinder the computer turns on a fuel injector which sprays fuel, under pressure, into the intake manifold or directly into the cylinder

4. Hey Roger, this new technology is amazing! 4

5. 5 3 main types of fuel injection… 1) Throttle body injection (TBI) uses 1 or 2 injectors mounted on top of the throttle (fig. a)uses 1 or 2 injectors mounted on top of the throttle (fig. a) performs better than a carburetorperforms better than a carburetor unequal fuel distribution with some condensationunequal fuel distribution with some condensation looks similar to a carburetor (fig. b)looks similar to a carburetor (fig. b) low manufacturing costslow manufacturing costs not as common today (used a lot in the 1980s)not as common today (used a lot in the 1980s) fig. a fig. b

6. 6 3 main types of fuel injection… 2) Multi-port or multi-point injection (MPFI) 2) Multi-port or multi-point injection (MPFI) uses 1 injector for each cylinderuses 1 injector for each cylinder much more common than TBImuch more common than TBI delivers the fuel more precisely than TBIdelivers the fuel more precisely than TBI more complex and costly compared to TBImore complex and costly compared to TBI intake manifold only delivers air so it can be designed for max. air flowintake manifold only delivers air so it can be designed for max. air flow improves low speed torqueimproves low speed torque

7. 7 3 main types of fuel injection… 3) Direct injection (newest design) injects the fuel directly into the combustion chamber3) Direct injection (newest design) injects the fuel directly into the combustion chamber

8. 8 How EFI Works Input Input Engine sensors Engine sensors Processing Output Processing Output Computer Fuel quantity Computer Fuel quantity Idle speed Idle speed Spark timing Spark timing Emission controls

9. 9 Input Section these sensors provide engine information to the PCM…these sensors provide engine information to the PCM…  engine speed sensor  throttle position sensor  coolant temperature sensor  air temperature sensor  engine load sensor  knock (detonation) sensor  oxygen sensor

10. 10 Input Section – Engine Speed engine speed, measured in RPM’s, is provided to the PCM by either… engine speed, measured in RPM’s, is provided to the PCM by either…  the distributor’s pick-up coil (vehicles with distributors) or…  crankshaft position sensor (used on distributor-less & direct ignition)

11. 11 Input Section – Throttle Position throttle position sensor (TPS) tells the PCM how much pressure the driver is putting on the throttle throttle position sensor (TPS) tells the PCM how much pressure the driver is putting on the throttle TPS is a variable resistor TPS is a variable resistor

12. 12 Input Section – TPS a 5 volt signal is sent to the TPS. A return signal is sent back to the PCM that corresponds with throttle position.a 5 volt signal is sent to the TPS. A return signal is sent back to the PCM that corresponds with throttle position. idle: ≈.5 voltidle: ≈.5 volt ½ throttle: ≈ 2.5 volts½ throttle: ≈ 2.5 volts wide open throttle ≈4.5 voltswide open throttle ≈4.5 volts PCM interprets these return voltages as specific throttle positions.PCM interprets these return voltages as specific throttle positions. PCM can then adjust the quantity of fuel needed accordingly.PCM can then adjust the quantity of fuel needed accordingly.

13. 13 TPS & PCM Wiring throttle position determines what portion of the 5 volt signal is at the PCM’s signal terminalthrottle position determines what portion of the 5 volt signal is at the PCM’s signal terminal PCM

14. 14 Input Section – Engine Temperature a coolant temperature sensor (CTS) is used to provide the PCM with the temperature of the coolant a coolant temperature sensor (CTS) is used to provide the PCM with the temperature of the coolant the PCM can then inject more fuel the colder the engine is or less fuel as the engine warms up the PCM can then inject more fuel the colder the engine is or less fuel as the engine warms up the CTS is a temperature sensitive resistor (thermistor). As the temperature increases, its resistance decreases the CTS is a temperature sensitive resistor (thermistor). As the temperature increases, its resistance decreases

15. 15 Input Section – Air Temperature an air temperature sensor is used to provide the PCM with the temperature of the air entering the intake manifold an air temperature sensor is used to provide the PCM with the temperature of the air entering the intake manifold the PCM can then inject more fuel the colder the engine is or less fuel as the engine warms up the PCM can then inject more fuel the colder the engine is or less fuel as the engine warms up the air temperature sensor is a temperature sensitive resistor the air temperature sensor is a temperature sensitive resistor  as the temperature increases, its resistance decreases

16. 16 Input Section – Measuring Engine Load #1 a manifold absolute pressure sensor (MAP sensor) senses engine vacuum and uses this signal as an indicator of the engine load a manifold absolute pressure sensor (MAP sensor) senses engine vacuum and uses this signal as an indicator of the engine load light engine load = higher vacuum = lower manifold pressure light engine load = higher vacuum = lower manifold pressure heavy engine load = lower vacuum = higher manifold pressure heavy engine load = lower vacuum = higher manifold pressure PCM responds by injecting more fuel into the engine during heavy loads, or less fuel at light loads PCM responds by injecting more fuel into the engine during heavy loads, or less fuel at light loads

17. 17 Input Section – Measuring Engine Load #2 another way to measure engine load is to measure how much air is flowing into the engine another way to measure engine load is to measure how much air is flowing into the engine mass airflow sensor (MAF) “tells” the computer how much load is being placed on the engine mass airflow sensor (MAF) “tells” the computer how much load is being placed on the engine MAF measures airflow into the engine in grams/second MAF measures airflow into the engine in grams/second

18. 18 Input Section – Measuring Engine Load #3 air flow can also be measured with an air flow meterair flow can also be measured with an air flow meter uses a moveable flapuses a moveable flap

19. 19 Input Section – Spark Knock knock sensor can detect detonation & PCM will respond by retarding the ignition timingknock sensor can detect detonation & PCM will respond by retarding the ignition timing  detonation is combustion of the fuel that wasn’t initiated by the spark plug  this can be caused by excessive heat, carbon build-up or low octane fuel

20. 20 Input Section – Oxygen Sensor the key to EFI’s ability to provide excellent fuel economy & low emissions is the oxygen sensor (O2 sensor) the key to EFI’s ability to provide excellent fuel economy & low emissions is the oxygen sensor (O2 sensor) the O2 sensor “tells” the PCM if the air-fuel mixture is too rich or too lean. PCM then adjusts the AFM to keep it at the ideal ratio of 14.7:1 the O2 sensor “tells” the PCM if the air-fuel mixture is too rich or too lean. PCM then adjusts the AFM to keep it at the ideal ratio of 14.7:1 Tech Tip: too rich means too much fuel too lean means too little fuel

21. 21 How does the O2 sensor do that? the O2 sensor screws into the exhaust pipe the O2 sensor screws into the exhaust pipe as the exhaust gases leave the engine, the O2 sensor compares oxygen in the atmosphere to oxygen left in the exhaust gases as the exhaust gases leave the engine, the O2 sensor compares oxygen in the atmosphere to oxygen left in the exhaust gases if there is little oxygen left over, this means the mixture is too rich if there is little oxygen left over, this means the mixture is too rich if there is lots of oxygen left over, then the mixture is too lean if there is lots of oxygen left over, then the mixture is too lean

22. 22 O2 Sensor Communication with the PCM if the mixture is too rich = little oxygen is left over in the exhaust gasesif the mixture is too rich = little oxygen is left over in the exhaust gases  O2 sensor produces ≈ 1 volt if the mixture is too lean = lots of oxygen left over in the exhaust gasesif the mixture is too lean = lots of oxygen left over in the exhaust gases  O2 sensor produces a low voltage ≈.1 volt if the mixture is perfect (14.7:1), then the O2 sensor will produce.5 voltif the mixture is perfect (14.7:1), then the O2 sensor will produce.5 volt

23. 23 Output Section

24. 24 Output Section – Fuel Delivery once the PCM has received all the data from the input sensors, it then decides how much fuel to give the engine by varying how long the injector is turned on once the PCM has received all the data from the input sensors, it then decides how much fuel to give the engine by varying how long the injector is turned on injector on-time is called pulse width injector on-time is called pulse width  (measured in milliseconds)

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27. 27 Output Section – Idle Speed Control the PCM is also responsible for controlling the idle speed of the engine with an idle speed motor… the PCM is also responsible for controlling the idle speed of the engine with an idle speed motor…

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29. 29 PCM Output Control in addition to fuel quantity & idle speed control, the PCM also controls emission control devicesin addition to fuel quantity & idle speed control, the PCM also controls emission control devices  we’ll discuss these after spring break

30. 30 Fuel Delivery System a fuel pump draws fuel from the tank and pressurizes a fuel pump draws fuel from the tank and pressurizes the fuel pump and fuel pressure regulator work together to maintain… the fuel pump and fuel pressure regulator work together to maintain…  TBI injection operates at lower pressures ≈ 15psi (using an electric fuel pump)  some multiport pressures are higher than 35psi (using an electric fuel pump)  direct injection can be in the 400 – 1500psi range (using a mechanical fuel pump)

31. 31 Electric Fuel Pump

32. 32 Returnless Fuel Supply System used since the mid 90’sused since the mid 90’s uses an in-tank fuel pump & pressure regulator moduleuses an in-tank fuel pump & pressure regulator module reduces fuel evaporative lossesreduces fuel evaporative losses PCM can vary fuel supply by modifying fuel pump pulse widthPCM can vary fuel supply by modifying fuel pump pulse width Return-less-type Return-type

33. 33 Direct Injection Fuel Supply direct injection engines use an engine driven, high pressure mechanical fuel pump…direct injection engines use an engine driven, high pressure mechanical fuel pump… 35psi, as is found on port injection is insufficient for direct injection35psi, as is found on port injection is insufficient for direct injection direct injection pressures must overcome compression pressuresdirect injection pressures must overcome compression pressures 45 sec.

34. 34 Gasoline Fuel Injection optimal (more better) way of delivering fuel to a spark ignition engine when compared to carburetorsoptimal (more better) way of delivering fuel to a spark ignition engine when compared to carburetors  more exact control of fuel delivery  AFM ratio better matched to the engine working conditions  better fuel economy  fewer emissions  less cylinder wear (less chance of fuel washing oil off cylinder)  better performance (driveability)

35. 35 Electronic Throttle Control - AKA Drive-by-wire throttle cable is eliminatedthrottle cable is eliminated PCM controls air flow into engine – not the driverPCM controls air flow into engine – not the driver TPS is still usedTPS is still used Pedal Position Sensor (PPS) addedPedal Position Sensor (PPS) added DC servo motor opens/closes throttle plateDC servo motor opens/closes throttle plate PPS