Toyota Fortuner. Ecd System Lack Of Power Or Hesitation

Lack of power caused by abnormal fuel injection volume (supply pump malfunction or injector malfunction)
Lack of power caused by intake air volume shortage (turbocharger malfunction, front exhaust pipe or exhaust manifold converter blocked)

(a) Injector malfunctions

Injector sliding malfunction
Injector stuck closed
Injector stuck open
Deposits in injector
Injector circuit malfunction

(b) Abnormal common rail pressure

Supply pump

Turbocharger
Front exhaust pipe blockage
Exhaust manifold converter blockage

Pressure limiter
Intake air system leakage
Intake air system blockage
EGR system
Fuel filter element is clogged
Throttle valve
Mass air flow meter
Compression pressure
Injector compensation code
Fuel leak
Glow plug
Fuel pressure sensor
EDU (P0200/97 set simultaneously)
Vehicle modifications
Low quality fuel
Frozen fuel
ECM

HINT:

Specified values in the following troubleshooting flowchart are for reference only. Variations in the Data List values may occur depending on the measuring conditions or the vehicle's age. Do not judge the vehicle to be normal even when the Data List values indicate a standard level. There are possibly some concealed factors of the malfunction.
Check that the vehicle has not been modified in any way prior to the vehicle inspection.
This troubleshooting procedure checks for the cause of an obvious lack of engine power (such as the maximum speed being extremely slow) while the vehicle is being driven.

INSPECTION PROCEDURE

NOTICE:

If the ECM is replaced, the new ECM needs initialization (Toyota Fortuner RM0000012X2005X.html).
If the supply pump is replaced, the ECM needs initialization (Toyota Fortuner RM0000012X2005X.html).

1.CHECK WIRE HARNESS IN ENGINE ROOM

Check the wire harness and connector connections.
OK:
Wire harnesses are connected securely.

REPAIR OR REPLACE HARNESS AND CONNECTOR

OK

2.PERFORM CONFIRMATION DRIVING PATTERN

HINT:

Drive the vehicle according to the driving pattern below to allow the ECM to set DTCs relating to malfunctions of the fuel system, EGR system and throttle valve. If DTCs are set, problem areas can be identified.

(a) Enter CHECK MODE (Toyota Fortuner RM0000012WZ005X.html).
(b) Fully warm up the engine.
(c) Allow the engine to idle for 5 minutes or more.
(d) Drive the vehicle at more than 40 km/h (25 mph) for several tens of seconds.
(e) Decelerate and stop the vehicle.
(f) Repeat steps (d) and (e) 4 times or more.
(g) Stop the engine and wait for at least 10 seconds.
(h) Repeat steps (d) and (g) described above to set DTCs relating to the EGR system and throttle valve.
(i) Drive the vehicle at more than 70 km/h (43 mph) for at least 1 minute (to set DTCs relating to the supply pump).

NEXT

3.READ OUTPUT DTC (RELATING TO ENGINE)

Enter the following menus: Powertrain / Engine / DTC.

Read pending DTCs.
Result:
Display (DTC Output)
Proceed to
No DTCs
A
Engine related DTCs (Toyota Fortuner RM0000012WD005X.html)
B

REPAIR OR REPLACE ENGINE CONTROL SYSTEM ACCORDING TO DTC OUTPUT

A

4.PERFORM ACTIVE TEST USING INTELLIGENT TESTER (TEST THE FUEL LEAK)

HINT:

By performing this Active Test, the engine speed is maintained at 2,000 rpm and the common rail internal fuel pressure is raised to the maximum operating pressure. As a result, a fuel leak check can be conducted while retaining the high common rail pressure.

Connect the intelligent tester to the DLC3.

Start the engine and turn the intelligent tester ON.

Enter the following menus: Powertrain / Engine / Active Test / Test the Fuel Leak.

Visually check the supply pump, injector and fuel line located between the supply pump and common rail for fuel leaks and fuel pressure leaks. Also, perform the same check on the fuel line between the common rail and the injector (Toyota Fortuner RM0000014FK006X_01_0001.html).
HINT:
There may be fuel leaks inside components, such as the supply pump.
OK:
No leakage.

REPAIR OR REPLACE FUEL LEAKAGE PART

OK

5.CHECK WHITE SMOKE

Rev up the engine from idling to 3,000 rpm several times to check whether white smoke is emitted from the exhaust pipe.

Check that the intake system pipes and hoses are not excessively contaminated with oil.

If white smoke is emitted from the intake system, its pipes and hoses are excessively contaminated with oil. If the presence of white smoke in the exhaust gas is confirmed, there is a high possibility of mechanical problems in the turbocharger or engine.

Result:

Result	Proceed to
No problems described above	A
White smoke emitted, or intake system pipes and hoses excessively contaminated with oil	B

Go to step 29

A

6.READ VALUE USING INTELLIGENT TESTER (MAP, MAF, FUEL PRESS)

Connect the intelligent tester to the DLC3.

Start the engine and warm it up and turn the intelligent tester ON.

Enter the following menus: Powertrain / Engine / Data List.

Select the following menu items in order and read the values.

MAP
MAF
Fuel Press

Result:

Item	Engine Speed*	Standard Range	Proceed to	Description
MAP	Ignition switch ON (engine stopped)	Same as atmospheric pressure	A (standard range) B (both MAP and MAF outside standard range) C (only MAP outside standard range)	Intake manifold internal pressure detected by intake pressure sensor
	Idling	95 to 105 kPa (713 to 788 mmHg, 28.1 to 31 in.Hg)
	3,000 rpm (No engine load)	110 to 135 kPa (825 to 1,013 mmHg, 32.5 to 39.9 in.Hg)
	3,500 rpm (full throttle acceleration)	Min.: 175 kPa (1,313 mmHg, 51.7 in.Hg)
MAF	Ignition switch ON (engine stopped)	0 g/sec.	A (standard range) B (both MAP and MAF outside standard range) D (only MAF outside standard range)	Intake air volume detected by mass air flow meter
	Idling	5 to 12 g/sec.
	3,000 rpm (No engine load)	75 to 95 g/sec.
	3,500 rpm (full throttle acceleration)	Min.: 150 g/sec.
Fuel Press	Idling	30 to 40 MPa	A (standard range) E ( fuel pressure outside standard range)	Common rail internal fuel pressure
	2,000 rpm (No engine load)	40 to 50 MPa
	3,000 rpm (No engine load)	50 to 70 MPa
	3,500 rpm (full throttle acceleration)	Min.: 150 MPa

HINT:

*: The A/C switch and all accessory switches should be OFF, and the engine should be fully warmed up.

Go to step 25

GO TO DTC P0105/35, P0107/35 AND P0108/35 (RELATED TO MANIFOLD ABSOLUTE PRESSURE SENSOR)

GO TO DTC P0100/31, P0102/31 AND P0103/31 (RELATED TO MASS AIR FLOW METER)

Go to step 31

A

7.READ VALUE USING INTELLIGENT TESTER (INJECTION FEED BACK VAL, INJECTION VOLUME)

Select the following menu items in order and read the values.

Injection Feedback Val #1, #2, #3 and #4
Injection Volume

Result:

Item	Engine Speed*	Standard Range	Proceed to	Description
Injection Feedback Val #1	Idling	-3.0 to 3.0 mm³	A (standard range) B (Injection Feedback Val #1 to #4 and/or Injection Volume outside standard range)	Value of injector fuel injection volume compensates for differences in combustion condition of cylinders Positive values indicate control which corrects combustion degradation Negative values indicate control which corrects excessive combustion pressure If problems exist, Injection Feedback Val may deviate from -3.0 and 3.0 mm³ range
Injection Feedback Val #2	Idling	-3.0 to 3.0 mm³
Injection Feedback Val #3	Idling	-3.0 to 3.0 mm³
Injection Feedback Val #4	Idling	-3.0 to 3.0 mm³
Injection Volume	Idling	5.0 to 12.0 mm³		Fuel injection volume value controlled by ECU Controls NE signal, fuel temperature, engine coolant temperature, intake air temperature, boost pressure, atmospheric pressure and EGR volume. If problems exist, Injection Volume may be outside standard range

HINT:

*: The A/C switch and all accessory switches should be OFF, and the engine should be fully warmed up.

Go to step 15

A

8.CHECK INJECTOR COMPENSATION CODE

Read the injector compensation code (Toyota Fortuner RM0000012XK005X.html).

HINT:

If the injector compensation code is not correctly registered, it may cause malfunctions (Toyota Fortuner RM0000012XK005X.html).

Check the injector compensation code (Toyota Fortuner RM0000012XK005X.html).
OK:
Compensation code of installed injector is same as code registered in ECM.

OK

9.CHECK BATTERY

Disconnect the cable from the negative (-) battery terminal for at least 2 minutes.

Reconnect the cable to the negative (-) battery terminal.

Check whether the malfunction has been successfully repaired by performing a driving test using the freeze frame data recorded at the time the malfunction occurred.
OK:
Malfunction has been repaired successfully.

CHECK FOR INTERMITTENT PROBLEMS

NG

10.BLEED AIR FROM FUEL SYSTEM

To bleed air from the priming pump, pump the priming pump until it becomes hard and cannot be pumped any more.

NEXT

11.CONFIRM WHETHER LACK OF POWER HAS BEEN SUCCESSFULLY REPAIRED

Check whether the lack of power has been successfully repaired by performing a driving test. Use the freeze frame data recorded at the time the malfunction occurred.
OK:
Malfunction has been repaired successfully.

END

NG

12.INSPECT GLOW PLUG ASSEMBLY

Toyota Fortuner. Ggn50, 60 Kun51, 61 Tgn51 Lan50.1Kd-Ftv Engine Control System.Ecd System.Ecd System Lack Of Power Or Hesitation

Disconnect the glow plug wire.

Measure the resistance of the glow plug.

Check other glow plugs in the same way.
Standard resistance:
Tester Connection
Specified Condition
Glow plug terminal - Body ground
Approximately 0.95 Ω at 20°C (68°F)
HINT:
If any one of the glow plugs has an open malfunction, the engine power is insufficient only when the engine is cold.
NOTICE:
1. Be careful not to damage the glow plug pipes. Damaging them could cause an open circuit, or shorten the life of the glow plugs.
2. Keep the glow plug free of oil and fuel while cleaning.
3. Wipe any oil off the terminal and Bakelite washer with a clean, dry cloth during inspection.
4. Do not apply more than 11 V to the glow plug as it could cause an open circuit.

REPLACE GLOW PLUG ASSEMBLY

OK

13.BASIC INSPECTION

Check the fuel quality.

Check the fuel for air.

Check the fuel system for blockages.

Check the air filter.

Check the engine oil.

Check the engine coolant.

Check the engine idling speed and the maximum engine speed.

Check the vacuum pump.
OK:
Each inspection result is normal.

REPAIR OR REPLACE MALFUNCTIONING PARTS

OK

14.CHECK INTAKE AND EXHAUST SYSTEM

Check for air leakage and blockage between the air cleaner and turbocharger.

Check for air leakage and blockage between the turbocharger and intake manifold.
OK:
No leakage or blockage.

END

15.IDENTIFY MALFUNCTIONING CYLINDER INJECTOR

Follow the instructions in the table below according to the check result of the intelligent tester.

HINT:

This operation is based on the premise that the common rail pressure is normal.

Standard value (reference):

Item	Engine Speed*	Specified Condition
Injection Feedback Val #1 to #4	Idling	-3.0 to 3.0 mm³
Injection Volume	Idling	5.0 to 12.0mm³

HINT:

*: The A/C switch and all accessory switches should be OFF, and the engine should be fully warmed up.

Result:

Injection Volume Injection Feedback Val #1 to #4	Less than 5.0 mm³	Between 5.0 to 12.0 mm³ (Normal)	More than 12.0 mm³
3.0 mm³ or more, -3.0 mm³ or less	A	B	B
Between -3.0 to 3.0 mm³	-	Normal	C*

Proceed to	Inspection Areas	Descriptions
A	Inspect and repair cylinder injector with revised injection volume of less than -3.0 mm³: Perform power balance inspection and identify malfunctioning cylinder Replace malfunctioning cylinder injector	Abnormal value cylinder injector injects excessively large quantity of fuel
B	Identify malfunctioning cylinders by conducting power balance inspection: Perform power balance inspection to identify malfunctioning cylinders Clean malfunctioning cylinder injector, then check and repair it	Abnormal value cylinder injector injects excessively small quantity of fuel: Fuel injection volume too low due to injector nozzle being blocked by deposits Abnormal value cylinder injector compression decreases Abnormal value cylinder injector injects excessively large quantity of fuel
C	Inspect and repair all cylinder injectors: Clean all cylinder injectors, and then inspect and repair them	All cylinder injectors inject excessively small quantity of fuel: Fuel injection volume too low due to all cylinder injector nozzles being blocked by deposits

HINT:

*: When the Injection Volume displayed on the intelligent tester is large despite the Fuel Pressure and Injection Feedback Val #1 to #4 in the Data List being normal, the injector may be clogged. In this case, there may be deposits inside or outside the injector.

Despite the injector functioning normally, the indicated Injection Feedback Val #1 to #4 value may be outside the normal operating range due to compensation for other problems (such as low compression).
Injection Feedback Val #1 to #4 is the value used to correct the fuel injection volumes of each cylinder, in order to optimize (compensate for the unevenness between) all the cylinder combustion conditions. If any of the cylinders malfunction, the fuel injection volumes for the normal cylinders are corrected simultaneously. As a result, the Injection Feedback Val #1 to #4 may deviate from the standard range.

Go to step 17

Go to step 22

A

16.PERFORM ACTIVE TEST USING INTELLIGENT TESTER (INJECTOR CUT FOR IDENTIFYING MALFUNCTIONING CYLINDER)

Connect the intelligent tester to the DLC3.

Start the engine and turn the intelligent tester ON.

Enter the following menus: Powertrain / Engine / Active Test / Control the Cylinder#1, #2, #3 and #4 Fuel Cut.

Check the four cylinders in sequence to identify any faulty cylinders by performing the power balance inspection.
HINT:
1. While the engine is idling, if the idling stability variation is small despite cutting off the fuel injection, the cylinder is malfunctioning.
2. With normal cylinders, the engine idles roughly when the fuel injection is cut off.

REPLACE INJECTOR

17.PERFORM ACTIVE TEST USING INTELLIGENT TESTER (INJECTOR CUT FOR IDENTIFYING MALFUNCTIONING CYLINDER)

Connect the intelligent tester to the DLC3.

Start the engine and turn the intelligent tester ON.

Enter the following menus: Powertrain / Engine / Active Test / Control the Cylinder#1, #2, #3 and #4 Fuel Cut.

Check the four cylinders in sequence to identify any faulty cylinders by performing the power balance inspection.
HINT:
1. While the engine is idling, if the idling stability variation is small despite cutting off the fuel injection, the cylinder is malfunctioning.
2. With normal cylinders, the engine idles roughly when the fuel injection is cut off.

NEXT

18.CHECK CYLINDER COMPRESSION PRESSURE

Check the cylinder compression pressure (Toyota Fortuner RM000001473004X_01_0002.html).
Standard pressure:
2,700 kPa (27.5 kgf/cm², 391 psi) or more
Minimum pressure:
2,200 kPa (22.5 kgf/cm², 320 psi)
Difference between each cylinder:
500 kPa (5.0 kgf/cm², 71 psi) or less

REPAIR OR REPLACE

OK

19.CHECK MALFUNCTIONING CYLINDER INJECTION FOR DEPOSIT

HINT:

If an injector is contaminated with deposits, the fuel injection volume deviates from the standard range. This may cause malfunctions.

Check the injector for any deposits.

Result:

Injector Condition	Proceed to
Deposits	A
No deposits	B

REPLACE INJECTOR OF MALFUNCTIONING CYLINDER

A

20.CLEAN INJECTOR

NEXT

21.READ VALUE USING INTELLIGENT TESTER (INJECTION FEEDBACK VAL, INJECTION VOLUME)

Reinstall the injector to the cylinder head.

Connect the intelligent tester to the DLC3.

Turn the ignition switch ON and turn the intelligent tester ON.

Start the engine and warm it up.

Enter the following menus: Powertrain / Engine / Data List.

Select the following menu items in order and read the values.
1. Injection Feedback Val #1, #2, #3 and #4
2. Injection Volume
Standard value (reference):
Item
Engine Speed*
Specified Condition
Injection Feedback Val #1 to #4
Idling
-3.0 to 3.0 mm³
Injection Volume
Idling
5.0 to 12.0 mm³
HINT:
1. The A/C switch and all accessory switches should be OFF with a fully warm engine.
2. When the values are outside the standard range, deposits inside the injector may be causing the problem.
OK:
Values are within standard range.

REPLACE ALL CYLINDER INJECTORS

END

22.CHECK ALL CYLINDER INJECTORS FOR DEPOSIT

HINT:

If an injector is contaminated with deposits, the fuel injection volume deviates from the standard range. This may cause malfunctions.

Check the injector for any deposits.

Result:

Injector Condition	Proceed to
Deposits	A
No deposits	B

REPLACE ALL CYLINDER INJECTORS

A

23.CLEAN INJECTOR

NEXT

24.READ VALUE USING INTELLIGENT TESTER (INJECTION FEEDBACK VAL, INJECTION VOLUME)

Reinstall the injector to the cylinder head.

Connect the intelligent tester to the DLC3.

Turn the ignition switch ON and turn the intelligent tester ON.

Start the engine and warm it up.

Enter the following menus: Powertrain / Engine / Data List.

Select the following menu items in order and read the values.
1. Injection Feedback Val #1, #2, #3 and #4
2. Injection Volume
Standard value (reference):
Item
Engine Speed*
Specified Condition
Injection Feedback Val #1 to #4
Idling
-3.0 to 3.0 mm³
Injection Volume #1 to #4
Idling
5.0 to 12.0 mm³
HINT:
1. *: The A/C switch and all accessory switches should be OFF with a fully warm engine.
2. When the values are outside the standard range, deposits inside the injector may be causing the problem.
OK:
Values are within standard range.

REPLACE ALL CYLINDER INJECTORS

END

25.CHECK EGR VALVE POSITION SENSOR

HINT:

In this inspection, measure the MAF rate while idling the engine with the EGR valve fully closed.

Make sure the engine is stopped.

Disconnect the EGR E-VRV connector.

Connect the intelligent tester to the DLC3.

Turn the ignition switch ON and turn the tester ON.

Start the engine.

Enter the following menus: Powertrain / Engine / Data List / MAF.

Measure the MAF rate while idling the engine.
Standard rate:
MAF rate is between 5 to 12 g/sec.

HINT:

With the EGR E-VRV connector disconnected, a DTC is set when the ignition switch is turned ON. Therefore, clear the DTC upon completion of the inspection above (Toyota Fortuner RM0000012WY005X.html).

REPLACE EGR VALVE ASSEMBLY

OK

26.INSPECT DIESEL THROTTLE BODY ASSEMBLY

OK:: No malfunction

REPAIR OR REPLACE

OK

27.CHECK INTAKE AND EXHAUST VALVE

Check for air leakage and blockage between the air cleaner and turbocharger.

Check for air leakage and blockage between the turbocharger and intake manifold.
OK:
No leakage or blockage

REPAIR OR REPLACE

OK

28.CHECK INTAKE MANIFOLD

Check for air leakage and blockage between the turbocharger and intake manifold.
OK:
No leakage or blockage

REPAIR OR REPLACE

OK

29.CHECK TURBOCHARGER SUB-ASSEMBLY (MECHANICAL PROBLEM)

Disconnect the air cleaner hose.

Use a mirror to visually check the turbocharger for any mechanical problems.

When the engine is cold, check that the impeller of the turbocharger rotates smoothly, and perform a contact check to confirm if it is damaged.
OK:
Impeller rotates smoothly and is not damaged.

REPLACE TURBOCHARGER SUB-ASSEMBLY

OK

30.CONFIRM WHETHER MALFUNCTION HAS BEEN SUCCESSFULLY REPAIRED

Connect the intelligent tester to the DLC3.

Start the engine and warm it up and turn the intelligent tester ON.

Enter the following menus: Powertrain / Engine / Data List.

Select the following menu item and read the value.
1. MAP
2. MAF
Standard value (reference):
Item
Engine Speed*
Specified Condition
MAP
3,500 rpm (full throttle acceleration)
Min.: 175 kPa (1,313 mmHg, 51.7 in.Hg)
MAF
3,500 rpm (full throttle acceleration)
Min.: 150 g/sec.
HINT:
*: The A/C switch and all accessory switches should be OFF, and the engine should be fully warmed up.
OK:
Values are within standard value and malfunction has been successfully repaired.

REPLACE TURBOCHARGER SUB-ASSEMBLY

END

31.CHECK AND REPLACE FUEL FILTER ASSEMBLY

NEXT

32.CONFIRM WHETHER MALFUNCTION HAS BEEN SUCCESSFULLY REPAIRED

Connect the intelligent tester to the DLC3.

Start the engine and warm it up, and turn the intelligent tester ON.

Enter the following menus: Powertrain / Engine / Data List.

Select the following menu item and read the values.
1. Fuel Press
Standard value (reference):
Item
Engine Speed *
Specified Condition
Fuel Press
Idling
30 to 40 MPa
2,000 rpm (no engine load)
40 to 50 MPa
3,000 rpm (no engine load)
50 to 70MPa
3,500 rpm (full throttle acceleration)
Min.: 150 MPa
HINT:
*: The A/C switch and all accessory switches should be OFF, and the engine should be fully warmed up.
OK:
The values are within the standard range.

END

NG

33.INSPECT SUPPLY PUMP ASSEMBLY

Measure the resistance of the suction control valve terminals.
Standard resistance:
1.9 to 2.3 Ω at 20°C (68°F)

REPLACE SUPPLY PUMP ASSEMBLY

OK

34.INSPECT COMMON RAIL ASSEMBLY (FUEL PRESSURE SENSOR)

Disconnect the F8 sensor connector.

Measure the resistance of the sensor.
Standard resistance:
Tester Connection
Specified Condition
1 (E2) - 2 (PR)
3 kΩ or less
2 (PR) - 3 (VC)
16.4 kΩ or less

REPLACE COMMON RAIL ASSEMBLY

INSPECT COMMON RAIL ASSEMBLY (PRESSURE LIMITER)

Display (DTC Output)	Proceed to
No DTCs	A
Engine related DTCs (Toyota Fortuner RM0000012WD005X.html)	B

Tester Connection	Specified Condition
Glow plug terminal - Body ground	Approximately 0.95 Ω at 20°C (68°F)

Item	Engine Speed *	Specified Condition
Fuel Press	Idling	30 to 40 MPa
	2,000 rpm (no engine load)	40 to 50 MPa
	3,000 rpm (no engine load)	50 to 70MPa
	3,500 rpm (full throttle acceleration)	Min.: 150 MPa

Tester Connection	Specified Condition
1 (E2) - 2 (PR)	3 kΩ or less
2 (PR) - 3 (VC)	16.4 kΩ or less