FUEL INJECTION CONTROL OPERATION [L3 Turbo]

id0140b6101900

Operation

Injection timing

•  A synchronized fuel injection at the set crank position is performed.

Synchronized fuel injection

•  Fuel injection is performed with the appropriate injection timing and amount based on the below sensor input signals synchronized with the crankshaft rotation during the intake air process at each cylinder.

―  Crankshaft position sensor

―  MAF sensor

―  ECT sensor

―  IAT sensor

―  BARO sensor

―  Boost air temperature sensor

Injection time

•  The fuel injectors cause an operation delay with the start of energization from the PCM. The PCM calculates the fuel injection time by adding the non-injection time (ineffective injection time) to the actual injection time (effective injection time), and energizes the fuel injectors for this time.

am6zzn00001648

1	Injection signal
2	Fuel injector current
3	Fuel injector
4	Open
5	Closed
6	Fuel injection time
7	Ineffective injection time
8	Effective injection time
9	Fuel injector opening valve electrical current
10	Fuel injector valve opening time

Ineffective injection time

―  The fuel injectors cause an operation delay due to a delay in the rise of operation current due to coil inductance at the start of energization, and by the mass of the needle valve and plunger, and spring resistance. This delay is the ineffective injection time.

―  The non-injection time is affected by the change in fuel pressure. Accordingly, the PCM sets the non-injection time according to the fuel pressure.

Effective injection time

―  The fuel injector opening valve time, which is the actual fuel injection time, is called the effective injection time.

Determination of effective injection time

•  The PCM divides the engine operation conditions into control zones according to engine speed and engine load, and determines the effective injection time at each control zone to perform optimum air/fuel ratio control in all engine driving ranges.

am6zzn00001649

1	Large
2	Intake air amount
3	Engine speed
4	High
5	Start zone
6	Overboost fuel cut zone
7	High load volume increase feedback zone
8	Lambda 1 feedback zone
9	Deceleration fuel cut zone
10	Excessive speed fuel cut zone

Overboost fuel cut zone

Purpose

•  Intake air system component protection

Control condition

•  Manifold absolute pressure or charging efficiency is at the given value or more.

Determination of fuel injection time

•  The fuel injection time is set to 0 (fuel cut).

Start zone

Purpose

•  Improved startability

Control condition

•  When engine speed is 500 rpm or less

Determination of fuel injection time

•  Determination is based on the engine coolant temperature (ECT sensor) and engine speed (CKP sensor)

Lambda 1 feedback zone

Purpose

•  Improved fuel economy

•  Improved exhaust gas purification

Control condition

•  Occurs during engine operation except for high load volume increases and engine start zones

Determination of fuel injection time

•  During normal driving, the various correction amounts are added to the basic injection time to obtain the ratio that is close to the theoretical air/fuel ratio.

High load volume increase feedback zone

Purpose

•  Improved driveability, exhaust system component protection (suppress gas temperature)

Control condition

•  Either the charging efficiency or the accelerator opening angle is a given value or more.

Determination of fuel injection time

•  Corrections are added to the basic injection amount and the high load coefficient is calculated according to the engine speed, mass intake airflow amount and the throttle valve opening angle.

Excessive speed fuel cut zone

Purpose

•  Engine protection

Control condition

•  When the engine speed is 6,700 rpm or more.

•  When the engine speed is 5,500 rpm or more and the engine coolant temperature is approx. -15°C or less.

•  When the following conditions continue for 2 min or more:

―  Vehicle is stopped.

―  Engine speed is 2,500 rpm or more

―  Engine coolant temperature is approx. 112°C {234 °F} or more

Note

•  The PCM determines that the driver continues to depress the accelerator pedal unintentionally.

Determination of fuel injection time

•  The fuel injection time is set to 0 (fuel cut).

Deceleration fuel cut zone

Purpose

•  Improved fuel economy

•  Prevents overheating of the catalytic converter.

Control condition

•  When the engine conditions are as follows 10 s or more has elapsed after engine start).

―  Throttle valve is fully closed

―  Engine speed is the set value or more (charging efficiency at given value or more, mass airflow sensor normal).

Determination of fuel injection time

•  The fuel injection time is set to 0 (fuel cut)

Fuel injection time calculation method table

Contents (Fuel injection time, calculation method, or determination method)			Control zone
Injection time at start		Set value according to engine coolant temperature (low engine coolant temperature→long injection time)	A
Basic injection time		Basic injection time = charging efficiency x fuel flow coefficient		A	A
Fuel cut		Fuel injection time = 0				A	A	A
Ineffective injection time		Set time according to injector performance	A	A	A
Volume increase correction at engine start		Purpose: Ensures engine speed stability just after engine start Correction condition •  Specified time according to the engine coolant temperature directly after engine start Correction amount •  Low engine coolant temperature→large correction •  High intake air temperature→large correction	B	B
Lambda 1 feedback correction		Purpose: Controls air/fuel ratio to target air/fuel ratio Correction condition •  When the engine coolant temperature is at the set value or more Correction amount •  A/F sensor lambda value 1 or less→volume decrease correction •  A/F sensor lambda value 1 or more→volume increase correction		B
HO2S feedback correction		Purpose: Corrects feedback amount according to deterioration of A/F sensor and catalytic converter Correction condition •  Engine coolant temperature is at set value or more •  Engine speed is 500—4,250 rpm •  Charging efficiency is 10—80% Correction amount •  According to HO2S electromotive force→correction		B
High load value increase feedback correction		Purpose: Improved engine output, decrease of exhaust gas temperature Correction condition •  Based on the engine speed when the accelerator opening angle is the fixed value or more, otherwise, based on the engine speed and charging efficiency. Correction amount •  High engine speed, high charging efficiency→large correction			B
Warm-up volume increase correction		Purpose: Ensures combustion stability when the engine coolant temperature is low Correction condition •  While at the set engine coolant temperature Correction amount •  High charging efficiency, low engine coolant temperature→large correction		B	B
Volume increase correction during acceleration		Purpose: Corrects fuel injection delay during acceleration, to ensure drive stability Correction condition •  When the acceleration amount (change in the amount of charging efficiency) is at the set value or more. Correction amount •  Low engine coolant temperature→large correction •  Large acceleration amount→large correction		B	B
Learning correction		Purpose: Corrects deviation in air/fuel ratio from deterioration over time of mechanical devices Correction condition •  Under any condition except purge control Correction amount •  Learning value based on average of feedback correction value		B	B

Fuel cut

Overboost fuel cut

•  Purpose

•  Intake air system component protection

•  Control conditions

•  Manifold absolute pressure or charging efficiency is at the given value or more