ECD SYSTEM Black Smoke Emitted

DESCRIPTION

Faults and Symptoms of Common Rail Diesel Components

Engine Control

Intake System
Component		Intake system
Symptom: Main fault		Lack of power (No black smoke): Air filter blockage, air duct is crushed/leaking Black smoke (No lack of power): Leakage between the turbo and intake manifold
Data List		MAP (inside manifold absolute pressure) Target Booster Pressure When the accelerator is fully depressed, if MAP is 15 kPa lower than Target Booster Pressure for more than 5 seconds then a lack of power will be felt.

Turbocharger System
Component		Turbocharger system
Main fault		Air leak in the turbocharged air passage Turbo motor driver not operating well Turbocharger (turbine, bearing)
Symptoms		Lack of power (when vehicle starting, when heavy load) (Black smoke is not emitted when racing while vehicle stopped)
Data List		MAP (inside manifold absolute pressure), Target Booster Pressure When the accelerator is fully depressed, if MAP is 15 kPa lower than Target Booster Pressure for more than 5 seconds then a lack of power will be felt. With the ignition switch ON or during idling, MAP = atmospheric pressure (standard atmospheric pressure = 101 kPa). When the engine speed is about 1500 rpm or more, the turbocharger starts to take effect and MAP becomes higher than atmospheric pressure. Atmospheric pressure increases 1 kPa each time altitude increases by 100 m, and is also affected by the current weather conditions. VN Turbo Command 0%: Vanes fully open (drive rod contracts) Over 90%: Vanes fully closed (drive rod expands and turbo operates effectively)
Diagnostic Point		Using the Active Test "Test the Turbo Charger Step Motor", check the drive rod movement. Check the drive rod movement when the ignition switch is turned from ON to off.

Glow System
Component		Glow system
Main fault		Open circuit, glow plug relay fault
Symptoms		Difficult to start, rough idle, knocking, white smoke (when cold)
Data List		Check the glow plug indicator light
Diagnostic Point		Try to measure the resistance of the glow plug

Engine
Component		Engine
Main fault		Loss of compression
Symptoms		Rough idle (lack of power always)
Data List		Engine Speed of Cyl The engine is cranked for approximately 10 seconds, then the speed of each cylinder is measured (compression test). Indicates the speed of each cylinder when cranking. Example - Normal: Engine speed of all cylinders is approximately equal. When No. 1 cylinder compression is extremely low, "Engine speed of Cyl #1" is approximately 300 rpm, and "Engine speed of Cyl #2 to #4" is approximately 200 rpm. Usually the tester displays the value of when the engine is started. Injection Feedback Val "Injection Feedback Val" more than 2.0 mm³/st: Injector breakdown is causing injection volume deviation, or insufficient compression is causing poor combustion.

Diesel Injection

Fuel Supply Pump
Component		Fuel supply pump
Main fault		-
Symptoms		Difficult to start, engine stalling, rough idle, lack of power
Data List		Fuel Press, Target Common Rail Pressure, Target Pump SCV Current When in a stable condition such as when idling, the fuel pressure is within +/-10000 kPa of the target fuel pressure. If the fuel pressure is 20000 kPa below the target pressure then a lack of power will be felt. If the fuel pressure is below 25000 kPa then idling will be rough. Tech Tips The fuel pressure changes at engine starting, but is approx. 25000 kPa at engine start after the engine is warmed up. When Target Pump SCV Current is 1530 mA or more, the suction control valve has a tendency to become stuck.
Diagnostic Trouble Code		Even if Fuel Press is less than Target Common Rail Pressure, a DTC may not be stored.

Fuel Injector
Component		Fuel injector
Main fault		Injection hole blockage Nozzle needle or valve piston does not move smoothly
Symptoms		Rough idle, lack of power, black smoke, white smoke, knocking
Data List		Injection Feedback Val "Injection Feedback Val" more than 2.0 mm³/st: Injector breakdown is causing injection volume deviation, or insufficient compression is causing poor combustion.

Tech Tips

When the sliding resistance of the internal parts of the injectors (i.e. armature shaft, command piston and plunger) has increased due to internal contamination, injection volume will increase at high common rail pressure due to a delay in injector closing.
When black smoke occurs due to contamination of the injectors, there are usually other symptoms, such as engine knocking noise at cold idling, rough idling, difficult to start, etc. which are also present at low common rail pressure.

Fuel Pressure Sensor
Component		Fuel pressure sensor
Main fault		Open circuit, decrease in performance (foreign matter is stuck)
Symptoms		Difficult to start, rough idle, engine stall, lack of power
Data List		Fuel Press, Target Common Rail Pressure Slowly raise the engine speed from idling to 3000 rpm with the vehicle stopped, and check that Fuel Press follows Target Common Rail Pressure. If the fuel pressure sensor malfunctions, the actual fuel pressure may deviate from the target fuel pressure. (However, the value may not deviate even when a malfunction is present).
Diagnostic Trouble Code		When the fuel pressure sensor has a fault, some DTCs may be stored.

Irregular Fuel
Component		Irregular fuel
Main fault		-
Symptoms		Difficult to start, rough idle (especially when cold)

Diesel EGR

EGR System
Component		EGR system
Main fault		Does not move smoothly Does not close completely
Symptoms		Rough idle EGR valve stuck closed: A loud turbocharger sound. EGR valve stuck open: Difficult to start (does not stall), black smoke, lack of power (if there is an excess in the quantity of EGR and there is a heavy load, when the vehicle starts moving, a lack of power will be felt).
Data List		Actual EGR Valve Pos., Target EGR Pos. Generally, Actual EGR Valve Pos. = Target EGR Pos. +/-5% (fully closed 0%, fully open 100%). Using EGR valve Active Test, check whether Actual EGR Valve Pos. follows Target EGR Pos. (the engine coolant temperature and intake air temperature should be considered when a malfunction occurs). EGR valve is fully closed when the ignition switch is turned to ON (engine stopped). EGR valve opens to the halfway point at idling after the engine warmed up.

Diesel Throttle

Diesel Throttle System
Component		Diesel throttle system
Main fault		Stuck, does not move smoothly
Symptoms		Stuck closed: Lack of power, difficult to start, rough idle, engine stall, black smoke. These may occur when stuck almost fully closed. Stuck open: Turbocharger sound increases. When the engine is stopped, engine vibrations may occur.
Data List		Actual Throttle Position, Target Throttle Position 0%: Fully open 100%: Fully closed If there is a malfunction of the throttle actuator, compare the target and actual throttle position values for the troubleshooting.

Data List Related to Black Smoke Emission

Tech Tips

The Data List values in the table are the results of checking one vehicle under a specific condition (engine coolant temperature, intake air temperature, atmospheric pressure etc.). Therefore, use these values for reference only.

Engine Control

Engine Speed
Data List	Judgment of Data List Values	Faulty Component	Diagnosis Note
Engine Speed	Idling: 720 to 820 rpm	Crankshaft position sensor Crankshaft position sensor circuit	When the crankshaft position sensor is malfunctioning, "Engine Speed" is approximately 0 or varies greatly from the actual engine speed.

MAP
Data List	Judgment of Data List Values	Faulty Component	Diagnosis Note
MAP	When MAP is low, there will be difficulty starting. With ignition switch ON or during idling, MAP is nearly equal to Atmosphere Pressure (standard atmospheric pressure = 101 kPa).	When MAP is low, the following conditions are possible: Diesel throttle nearly fully closed. Intake system blocked (turbocharger system also). Exhaust system blocked.	When the ignition switch is ON or the vehicle is idling, MAP (intake manifold absolute pressure) and Atmosphere Pressure are approximately equal (standard atmospheric pressure = 101 kPa). Above approx. 1500 rpm, the turbo becomes effective, and the pressure becomes higher than atmospheric pressure. Inspect while comparing with "Target Booster Pressure". With the accelerator fully open, if the MAP (intake manifold absolute pressure) is low compared to the target booster pressure by at least 15 kPa for 5 seconds or more, a feeling of insufficient power will occur.
MAP	Results of real-vehicle check: Ignition switch ON: 98 kPa Cranking: 98 kPa Idling (warm up the engine): 99 kPa (2 minutes after starting the vehicle) Running without load (2500 rpm): 109 kPa Running without load (3000 rpm): 131 kPa Running without load (4000 rpm): 163 kPa Running without load (4500 rpm): 173 kPa Driving with the accelerator fully open at 2000 rpm: 183 kPa Driving with the accelerator fully open at 3000 rpm: 217 kPa Driving with the accelerator fully open at 4500 rpm: 205 kPa

MAF
Data List	Judgment of Data List Values	Faulty Component	Diagnosis Note
MAF	-	MAF meter MAF meter circuit Intake system clogging, leaking Exhaust system clogging Turbocharger sub-assembly Leaking or clogging of turbocharger passages EGR valve does not close	Based on the MAF, the ECM controls the fuel injection volume, injection timing, EGR, etc. If the value is always approximately 0 gm/sec.: Mass air flow meter power source circuit is open. VG circuit is open or shorted. If the value is always 200 gm/sec. or more: EVG circuit is open.
	Results of real-vehicle check: Ignition switch ON: 0 gm/sec. Cranking (295 rpm): 2.72 gm/sec. Idling (warm up the engine): 5.0 gm/sec. (2 minutes after starting the vehicle and "Actual EGR Valve Pos." = 56%) Idling (warm up the engine): 8.5 gm/sec. (2 minutes after starting the vehicle and "Actual EGR Valve Pos." = 0.3%) Running without load (2500 rpm): 21.2 gm/sec. (at "Actual EGR Valve Pos." = 56%) Running without load (4500 rpm): 69.8 gm/sec. Driving with the accelerator fully open at 2000 rpm: 43.94 gm/sec. Driving with the accelerator fully open at 3000 rpm: 72.47 gm/sec. Driving with the accelerator fully open at 4500 rpm: 87.8 gm/sec.
	Tech Tips The maximum fuel injection volume is controlled according to the output from the mass air flow meter. If the time of engine idling is long (approximately 20 minutes or more), EGR will be cut off. At this time, if the vehicle is driven in 5th gear at 70 km/h for 10 minutes, EGR resumes.

Intake Air
Data List	Judgment of Data List Values	Faulty Component	Diagnosis Note
Intake Air	-	Intake air temperature sensor.	After a long soak, the engine coolant temperature, intake air temperature and ambient air temperature are approximately equal. If the value is -40°C (-40°F) or 140°C (284°F), the sensor circuit is open or shorted.

Coolant Temp
Data List	Judgment of Data List Values	Faulty Component	Diagnosis Note
Coolant Temp	Engine coolant temperature is approximately equal to intake air temperature after a long soak. After warm-up: Engine coolant temperature is 75°C (167°F) or more. In cases when the engine coolant temperature output is obviously higher than the actual engine coolant temperature, when it is cold, there will be difficulty starting due to problems with glow plugs or insufficient fuel injection. In cases when the engine coolant temperature sensor output is obviously lower than the actual engine coolant temperature, when it is warm, there will be difficulty starting (black smoke will also occur) due to an excess of injected fuel.	Engine coolant temperature sensor	If the value is -30°C (-22°F) or 120°C (248°F), the sensor circuit is open or shorted. After a long soak, the Coolant Temp, Intake Air and ambient air temperature are approximately equal.

Engine Speed of Cyl #1 (to #4)
Data List	Judgment of Data List Values	Faulty Component	Diagnosis Note
Engine Speed of Cyl #1 (to #4)	When cranking, the engine speed of each cylinder is the same under normal conditions. When a cylinder is approximately 100 rpm higher than the other cylinders, it is conceivable that the compression of that cylinder is being lost. Tech Tips Usually the tester displays the value of when the engine is started.	-	The engine is cranked for approximately 10 seconds, then the speed of each cylinder is measured (compression test). Indicates the speed of each cylinder when cranking. Example - Normal: Engine speed of all cylinders is approximately equal. When No. 1 cylinder compression is extremely low, "Engine speed of Cyl #1" is approximately 300 rpm, and "Engine speed of Cyl #2 to #4" is approximately 200 rpm.

Diesel Injection

Target Common Rail Pressure
Data List	Judgment of Data List Values	Faulty Component	Diagnosis Note
Target Common Rail Pressure	-	-	Inspect the (actual) fuel pressure, comparing it against the common rail target value. Considered normal when the actual fuel pressure is within +/-10000 kPa of the target fuel pressure under stable conditions.
Target Common Rail Pressure	Results of real-vehicle check: Ignition switch ON: 25000 kPa Cranking: 21470 kPa Idling (warm up the engine): 25000 kPa (2 minutes after starting the vehicle) Running without load (2500 rpm): 35590 kPa Running without load (3500 rpm): 80200 kPa Running without load (4500 rpm): 68200 kPa Driving with the accelerator fully open at 2000 rpm: 114330 kPa Driving with the accelerator fully open at 3000 rpm: 156460 kPa Driving with the accelerator fully open at 4500 rpm: 160000 kPa

Fuel Press
Data List	Judgment of Data List Values	Faulty Component	Diagnosis Note
Fuel Press	Idling: 19900 to 37000 kPa 4000 rpm: 50700 to 73000 kPa Fuel Press = Target Common Rail Pressure +/-10000 kPa at stable condition During cranking, if Fuel Press is lower than 25000 kPa, there may be difficulty starting (take care as there is a response lag when the pressure rises). When Fuel Press is lower than 25000 kPa, rough idling will occur.	If there is a fault with the fuel supply pump (lack of discharge quantity) or pressure control valve (will not fully close), the fuel pressure will drop. Also, a blocked fuel filter, leakage from fuel pipes, and lack of fuel will also make the fuel pressure drop. If air mixes with the fuel, the fuel pressure will shift away from the target fuel pressure. When there is a fault with the fuel supply pump, there is a possibility of lack of power, engine stall, rough idle and difficulty starting.	Fuel pressure is the actual common rail fuel pressure. Inspect by comparing the fuel pressure with the target fuel pressure. When in a stable condition such as when idling, the fuel pressure is within +/-10000 kPa of the target fuel pressure. The ECM uses fuel pressure for feedback control of the target fuel pressure via the supply pump. The injection amount is determined based on the injection timing and fuel pressure.
Fuel Press	Results of real-vehicle check: Ignition switch ON: 140 kPa Cranking: 21920 kPa Idling (warm up the engine): 25430 kPa (2 minutes after starting the vehicle) Running without load (2500 rpm): 35550 kPa Running without load (4500 rpm): 68990 kPa Driving with the accelerator fully open at 2000 rpm: 114950 kPa Driving with the accelerator fully open at 3000 rpm: 154320 kPa Driving with the accelerator fully open at 4500 rpm: 160280 kPa

Target Pump SCV Current
Data List	Judgment of Data List Values	Faulty Component	Diagnosis Note
Target Pump SCV Current	1530 mA or less	Suction control valve malfunction Clogged fuel filter	ECU-calculated value for the suction control valve actuation target current. Value is large when a high fuel pressure is desired. Value becomes stuck at 1800 mA or more or operation is poor (poor movement due to deposits, etc.). When this deviates from the standard value, it indicates that for some reason, even though the pump is running hard, the actual fuel pressure is inconsistent with the target fuel pressure.
Target Pump SCV Current	Results of real-vehicle check: Cranking: 1052 mA Idling: 1167 mA Running without load (2500 rpm): 1300 mA Running without load (4500 rpm): 1188 mA Driving with the accelerator fully open at 2000 rpm: 1102 mA Driving with the accelerator fully open at 3000 rpm: 934 mA Driving with the accelerator fully open at 4500 rpm: 920 mA

Injection Feedback Val #1 (to #4)
Data List	Judgment of Data List Values	Faulty Component	Diagnosis Note
Injection Feedback Val #1 (to #4)	When idling after the engine is warmed up, the fuel quantity of each fuel injector is corrected to make each cylinder engine speed equal. Cylinders more than 2 mm³/st may have a fault. Tech Tips Read the value after one minute of idling after warm up (engine coolant temperature above 75°C (167°F)). This value is only calculated when idling.	Injector clogging Injector deterioration Decrease in cylinder compression Injector compensation code is incorrectly set (forgot to input code after replacement or made mistake during setting of code after replacing ECM with one from another vehicle) With fuel injector faults, other than difficulty starting, there is a possibility of rough idling, lack of power, black smoke, white smoke and knocking.	When idling after warm up, the injection amount for each cylinder is corrected to optimize the difference between the engine speed of each cylinder. Example: For cylinders that are slowing the engine speed compared to other cylinders, the injection volume is increased. "Injection Feedback Val" more than 2.0 mm³/st: Injector breakdown is causing injection volume deviation, or insufficient compression is causing poor combustion.

Injection Volume
Data List	Judgment of Data List Values	Faulty Component	Diagnosis Note
Injection Volume	-	-	If injectors are clogged, fuel quality is poor, the fuel filter is clogged, or engine friction increases, then "Injection Volume" will increase.
Injection Volume	Results of real-vehicle check: Cranking: 19.58 mm³/st Idling (warm up the engine): 4.19 mm³/st (at "Actual EGR Valve Pos." = 0.3%) Idling (warm up the engine): 4.58 mm³/st (at "Actual EGR Valve Pos." = 56%) Running without load (2500 rpm): 4.68 mm³/st Running without load (4500 rpm): 8.28 mm³/st Driving in 3rd gear 60 km/h (37 mph): 9.39 mm³/st Driving in 3rd gear 60 km/h (37 mph) during PM regeneration: 26.28 mm³/st Driving with the accelerator fully open at 2000 rpm: 36.48 mm³/st Driving with the accelerator fully open at 3000 rpm: 46.97 mm³/st Driving with the accelerator fully open at 4500 rpm: 37.89 mm³/st

Diesel Throttle

Actual Throttle Position
Data List	Judgment of Data List Values	Faulty Component	Diagnosis Note
Actual Throttle Position	When the ignition switch is turned to ON (engine stopped), the diesel throttle is fully open. When the ignition switch is turned from ON to off, the diesel throttle is fully closed temporarily. With the diesel throttle stuck almost fully closed, there is a possibility of rough idling, engine stall, black smoke, difficulty starting and lack of power.	Diesel throttle body	Closing percentage of the throttle valve. Fully closed: 100% Fully open: 0% If there is a malfunction of the throttle actuator, compare the target and actual throttle position values for the troubleshooting.
Actual Throttle Position	Results of real-vehicle check: Ignition switch ON: -1% Cranking: -1% Idling (warm up the engine): -1% Running without load (2500 rpm): 0% Running without load (4500 rpm): 0% Driving in 3rd gear 60 km/h (37 mph): -1% Driving in 3rd gear 60 km/h (37 mph) during PM regeneration: 78% Driving with the accelerator fully open at 2000 rpm: 0% Driving with the accelerator fully open at 4500 rpm: 0% Soon after engine running to ignition switch off: 0% → 99% → 0%

Throttle Motor Duty
Data List	Judgment of Data List Values	Faulty Component	Diagnosis Note
Throttle Motor Duty	-	-	When the value of the Throttle Motor Duty increases, the moving force to open and close the diesel throttle valve increases.
Throttle Motor Duty	Results of real-vehicle check: Cranking: 16.4% Idling (warm up the engine): 9.4% Running without load (2500 rpm): 10.1% Running without load (4500 rpm): 10.5% Driving with the accelerator fully open at 2000 rpm: 12.5% Driving with the accelerator fully open at 3000 rpm: 12.1% Throttle valve closing when soon after engine running to ignition switch off: 79.6%

Diesel EGR

Target EGR Position
Data List	Judgment of Data List Values	Faulty Component	Diagnosis Note
Target EGR Position	-	-	Fully open: 100% Fully closed: 0% Used for comparison to "Actual EGR Valve Pos". Tech Tips If the time of engine idling is long (approximately 20 minutes or more), EGR will be cut off. At this time, if the vehicle is driven in 5th gear at 70 km/h for 10 minutes, EGR resumes.
Target EGR Position	Results of real-vehicle check: Ignition switch ON: 0% Cranking: 0% Idling with EGR off (warm up the engine): 0.3% Idling with EGR on (warm up the engine): 56% Running without load (2500 rpm): 57% Running without load (4500 rpm): 0% Driving with the accelerator fully open at 2000 rpm: 0% Driving with the accelerator fully open at 3000 rpm: 0% Driving with the accelerator fully open at 4500 rpm: 0%

Actual EGR Valve Pos.
Data List	Judgment of Data List Values	Faulty Component	Diagnosis Note
Actual EGR Valve Pos.	Generally Actual EGR Valve Pos. = Target EGR Position (Fully closed = 0%, Fully open = 100%) The EGR valve Active Test can be used to check whether the Actual EGR Valve Pos. = Target EGR Position	EGR valve assembly	Fully open: 100% Fully closed: 0% Inspect while comparing to "Target EGR Position". Check the valve movement via the Active Test. Sometimes the malfunction only occurs around a certain temperature, so refer to the engine coolant temperature and outside temperature at the time the malfunction occurred. Tech Tips If the time of engine idling is long (approximately 20 minutes or more), EGR will be cut off. At this time, if the vehicle is driven in 5th gear at 70 km/h for 10 minutes, EGR resumes.
Actual EGR Valve Pos.	Results of real-vehicle check: Ignition switch ON: 0% Cranking: 0% Idling with EGR off (warm up the engine): 0% Idling with EGR on (warm up the engine): 56% Running without load (2500 rpm): 56% Running without load (4500 rpm): 0.3% Driving in 3rd gear 60 km/h (37 mph): 57% Driving in 3rd gear 60 km/h (37 mph) during PM regeneration: 0.3% Driving with the accelerator fully open at 2000 rpm: 0.3% Driving with the accelerator fully open at 3000 rpm: 0.3% Driving with the accelerator fully open at 4500 rpm: 0%

WIRING DIAGRAM

Refer to DTC P1228 Click here.

INSPECTION PROCEDURE

Note

When replacing the ECM, fuel injector and/or DPF catalyst, the ECM needs Registration and Initialization Click here.

Tech Tips

When the ECM must be replaced, before replacing the ECM, perform the "Learning Values Save" function using the intelligent tester. Then after installing the new ECM, perform all of the initializations/ registrations for the "Learning Values Write" function by following the instructions shown on the tester display.
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 age. Do not assume the vehicle to be normal when the Data List outputs standard values. There may be concealed factors of the malfunction.

Explanation of Symptom

Black Smoke

The fuel used in diesel engines has a higher boiling point and evaporates much slower than that used in gasoline engines. Additionally, the fuel is injected directly, so the air fuel mixture in diesel engines is formed in a very short period of time and is less homogenous. This is why diesel engines must operate with excess air fuel ratio across the entire operating range. An insufficient quantity of air, results in imperfect combustion and increased particulate (soot) emission.

When the accelerator pedal is depressed, a lot of fuel is injected. As a result, the air fuel ratio becomes rich. In this relatively rich environment, fuel droplets lacking in oxygen burn imperfectly producing soot, which is emitted as black smoke. In order to prevent black smoke production, the maximum injection volume for a given intake air mass is limited (final injection volume is limited by MAF).

Black smoke is emitted either when:

A lack of oxygen is present during combustion
Too much fuel is injected for a given intake air mass and the air fuel ratio becomes temporarily rich

PROCEDURE

READ OUTPUT DTC (RELATING TO ENGINE)

Connect the intelligent tester to the DLC3.
Turn the ignition switch to ON and turn the tester on.
Enter the following menus: Powertrain / Engine and ECT / DTC.

Read pending DTCs.

Result
Result	Proceed to
No DTCs are output	A
Engine related DTCs are output	B

GO TO DTC CHART Click here

PERFORM ENGINE SPEED ACCELERATION (CHECK FOR BLACK SMOKE)
1. Start the engine and drive the vehicle until the engine coolant temperature reaches 60°C (140°F) or higher.
2. Stop the vehicle and allow the engine to idle.
3. Fully depress the accelerator pedal for 5 seconds and then release it (A).
4. Repeat the above procedure A 10 times (B).
5. Check for black smoke emission during the above procedures A and B.
  
  OK
  
  Black smoke is emitted less than 5 times.
  
  Tech Tips
  
  Even if the black smoke is very thin, count the black smoke emission if there is any visible smoke.
NG
CHECK HARNESS AND CONNECTOR (IN ENGINE ROOM) Click here

OK

END (TEMPORARY SOOT DEPOSITS DUE TO EXTREMELY LOW VEHICLE SPEED OR CONSECUTIVE SHORT TRIPS)
CHECK HARNESS AND CONNECTOR (IN ENGINE ROOM)
1. Check the wire harness and connector connections of common rail system components.
  
  OK
  
  The wire harnesses and connectors are connected securely.
NG
REPAIR OR REPLACE HARNESS OR CONNECTOR

OK

OK
Black smoke is emitted less than 5 times.

OK
The wire harnesses and connectors are connected securely.

TAKE SNAPSHOT DURING IDLING AND 3000 RPM

Connect the intelligent tester to the DLC3.
Start the engine and warm it up until the engine coolant temperature sensor reaches 75°C (167°F) or more.

Tech Tips

The shift lever should be in neutral and the A/C switch and all accessory switches should be off.
Turn the tester on.
Enter the following menus: Powertrain / Engine and ECT / Data List / All Data.

Take a snapshot of the following Data List items.

Tech Tips

A snapshot can be used to compare vehicle data from the time of the malfunction to normal data and is very useful for troubleshooting. The data in the list below is that of a normal vehicle, but as the data varies between individual vehicles, this data should only be used for reference.
Detailed graphs can be displayed by transferring the stored snapshot data from the tester to a PC (personal computer) with Intelligent Viewer installed.
Check the Data List at idling and at 3000 rpm with no load after the engine is warmed up.
If black smoke emitted, take a snapshot while the smoke is being emitted.

Data Condition Idling (Engine Warmed Up, A/C Off, Shift Lever in neutral)
Data List	Value	Unit
Engine Speed	773	rpm
MAP	99	kPa
MAF	5.05	gm/sec
Target Common Rail Pressure	25000	kPa
Fuel Press	25210	kPa
Injection Volume	4.58	mm³/st
VN Turbo Command	90	%
Target EGR Position	56.0	%
Actual EGR Valve Pos.	55.6	%
Target Throttle Position	0	%
Actual Throttle Position	0	%
Accel Position	0.00	%
Atmosphere Pressure	99	kPa
Coolant Temp	88	°C
Calculate Load	16.0	%
Pilot 1 Injection Period	228	μs
Pilot 2 Injection Period	0	μs

Data Condition at 3000 rpm (Engine Warmed Up, A/C Off, Shift Lever in neutral)
Data List	Value	Unit
Engine Speed	3000	rpm
Target Booster Pressure	131.66	kPa
MAP	129	kPa
MAF	31.08	gm/sec
Target Common Rail Pressure	46210	kPa
Fuel Press	46110	kPa
Target Pump SCV Current	1253.0	mA
Injection Volume	5.48	mm³/st
VN Turbo Command	95	%
Target EGR Position	50.5	%
Actual EGR Valve Pos.	51.3	%
Target Throttle Position	0	%
Actual Throttle Position	0	%
Accel Position	8.98	%
Coolant Temp	70	°C
Calculate Load	18.8	%
Pilot 1 Injection Period	217	μs
Pilot 2 Injection Period	0	μs

CHECK SNAPSHOT (FUEL PRESS AND TARGET COMMON RAIL PRESSURE)

Check Fuel Press and Target Common Rail Pressure in the snapshot taken when the engine was idling and at 3000 rpm with no load.

Tech Tips

If black smoke was emitted, check the snapshot from that moment.

Result
Result	Proceed to
Fuel Press is within +/-10000 kPa of Target Common Rail Pressure.	A
Fuel Press is outside range of +/-10000 kPa from Target Common Rail Pressure.	B

CHECK IF FUEL IS BEING SUPPLIED TO FUEL SUPPLY PUMP Click here

CHECK SNAPSHOT (TARGET PUMP SCV CURRENT)

Check Target Pump SCV Current in the snapshot taken when the engine was idling and at 3000 rpm with no load.

Result
Result	Proceed to
Target Pump SCV Current is less than 1530 mA	A
Target Pump SCV Current is 1530 mA or more	B

CHECK HARNESS AND CONNECTOR (SUCTION CONTROL VALVE - ECM) Click here

CHECK INJECTOR COMPENSATION CODE
1. Read the fuel injector compensation codes Click here.
  
  OK
  
  Compensation codes stored in the ECM match the compensation codes of the installed fuel injectors.
NG
PERFORM REGISTRATION AND INITIALIZATION Click here

OK

OK
Compensation codes stored in the ECM match the compensation codes of the installed fuel injectors.

CHECK SNAPSHOT (INJECTION FEEDBACK VAL #1 to #4)

Check Injection Feedback Val # and Injection Volume in the snapshot taken after the engine is warmed up and has idled for 1 minute.

Tech Tips

The shift lever should be in neutral and the A/C switch and all accessory switches should be off.

Result
Result	Proceed to
Injection Feedback Val #1 to #4 is within the range of +/-2 mm³/st and Injection Volume is 8 mm³/st or less	A
Injection Feedback Val #1 to #4 is within the range of +/-2 mm³/st and Injection Volume is more than 8 mm³/st	B*
Injection Feedback Val #1 to #4 is outside the range of +/-2 mm³/st Tech Tips There may be a malfunction in the corresponding cylinder.	C

Tech Tips

*: When case "B" occurs, usually symptoms may be noticeable, such as difficult starting, rough idling, knocking or black smoke at high common rail pressure.
If the value of Injection Volume is more than 8 mm³/st and the value of all of the Injector Feedback Val. #1 to #4 is within the threshold, replace the fuel injectors for all cylinders.

In this case, there is a possibility that too much recirculated exhaust gas enters into the engine. Therefore, you should compare the Target EGR Position and Actual EGR Valve Pos. by entering the following menus using the intelligent tester: Powertrain / Engine and ECT / Data List / Target EGR Position and Actual EGR Valve Pos.

If the difference between Target EGR Position and Actual EGR Valve Pos. exceeds +/-10%, the EGR system may have a malfunction.

REPLACE INJECTOR ASSEMBLY OF ALL CYLINDERS Click here

PERFORM ACTIVE TEST USING INTELLIGENT TESTER (CONTROL THE CYLINDER #1 TO #4 FUEL CUT) Click here

INSPECT ELECTRIC EGR VALVE ASSEMBLY
1. Remove the electric EGR valve assembly.
2. Connect the electric EGR valve assembly connector.
3. Connect the intelligent tester to the DLC3.
4. Turn the ignition switch to ON and turn the tester on.
5. Enter the following menus: Powertrain / Engine and ECT / Active Test / Control the EGR Step Position / Data List / Actual EGR Valve Pos.
6. When changing the Active Test value from 0 to 100%, check that Actual EGR Valve Pos. smoothly changes to the set opening angle.
  
  OK
  
  Value smoothly changes to the set opening angle.
7. Visually check the electric EGR control valve for deposits. If there are deposits, clean the electric EGR control valve.
  Note
  - When cleaning the electric EGR control valve, make sure the valve is completely closed.
  - Do not forcibly open the valve, as it may be damaged or deformed.
  - When cleaning the EGR valve and the diesel throttle body, use a piece of cloth with cleaning solvent. Spraying the solvent directly onto these parts or soaking the parts in the solvent may damage the parts.
8. Hold the electric EGR control valve up to a light, and then from the side indicated by the arrow in the illustration, visually check that there is no clearance between the valve and body.
  
  OK
  
  No light passes through (there is no clearance between the valve and body).
  
  If light passes through (there is a clearance between the valve and body), replace the electric EGR control valve assembly.
  
  Tech Tips
  
  Light passes through part A shown in the illustration even if the valve is completely closed, this is not a problem.
9. Remove the diesel throttle body assembly, intake air connector and EGR pipe connector.
10. Remove the deposits from those parts and clean them.
  Note
  - When cleaning the EGR valve and the diesel throttle body, use a piece of cloth with cleaning solvent. Spraying the solvent directly onto these parts or soaking the parts in the solvent may damage the parts.
  - Extreme care must be taken to prevent the removed deposits from falling into the engine unit during cleaning.
  Tech Tips
  - Remove the intake manifold from the cylinder head when it has to be cleaned.
  - Do not leave any deposits in the EGR valve assembly when cleaning the valve.
11. Reinstall the electric EGR valve assembly, diesel throttle body assembly, intake air connector and EGR pipe connector.
NG
REPLACE ELECTRIC EGR VALVE ASSEMBLY Click here

OK
INSPECT ENGINE COOLANT TEMPERATURE SENSOR
1. Inspect the engine coolant temperature sensor Click here.
  
  Tech Tips
  
  Confirm that the engine coolant temperature is 60°C or more using the intelligent tester, and then leave the vehicle overnight (7 hours or more). The actual engine coolant temperature and atmosphere temperature should be very similar.
NG
REPLACE ENGINE COOLANT TEMPERATURE SENSOR Click here

OK

READ VALUE USING INTELLIGENT TESTER (MAP AND ATMOSPHERE PRESSURE)

Connect the intelligent tester to the DLC3.
Turn the ignition switch to ON and turn the tester on.
Enter the following menus: Powertrain / Engine and ECT / Data List / MAP and Atmosphere Pressure.

Compare MAP to Atmosphere Pressure when the ignition switch is ON (do not start the engine).

Standard
Difference between the MAP and the Atmosphere Pressure is less than 7 kPa.

Tech Tips

If MAP and Atmosphere Pressure have the same value, both are normal. If there is a difference of 7 kPa or more, compare the values to the atmospheric pressure for that day. The sensor whose deviation is the greatest is malfunctioning.
Standard atmospheric pressure is 101 kPa. For every 100 m increase in altitude, pressure drops by 1 kPa. Varies by weather (high atmospheric pressure, low atmospheric pressure).

Result
Result	Proceed to
MAP and Atmosphere Pressure have the same value	A
MAP is different from actual atmospheric pressure	B
Atmosphere Pressure is different from actual atmospheric pressure	C

REPLACE TURBO PRESSURE SENSOR Click here

REPLACE ECM Click here

READ VALUE USING INTELLIGENT TESTER (ACCEL POSITION)

Connect the intelligent tester to the DLC3.
Turn the ignition switch to ON and turn the tester on.
Enter the following menus: Powertrain / Engine and ECT / Data List / Accel Position.

Read the value.

Standard Value

Condition	Standard Value
Accelerator pedal released	0%
Accelerator pedal depressed	95% or more
Accelerator pedal released → depressed Tech Tips Make sure the Accel Position opening angle changes smoothly.	0 to 95% or more

REPLACE ACCELERATOR PEDAL ASSEMBLY Click here

READ VALUE USING INTELLIGENT TESTER (INTAKE AIR AND INTAKE AIR TEMP (TURBO))
1. Leave the vehicle overnight (7 hours or more).
2. Connect the intelligent tester to the DLC3.
3. Turn the ignition switch to ON and turn the tester on.
4. Enter the following menus: Powertrain / Engine and ECT / Data List / Intake Air and Intake Air Temp (Turbo).
  
  OK
  
  Intake Air is the same as Intake Air Temp (Turbo).
NG
REPLACE MALFUNCTIONING PARTS

OK

TAKESNAP SHOT WHILE ACCELERATING WITH ACCELERATOR FULLY OPEN

Connect the intelligent tester to the DLC3.
Start the engine and warm it up until the engine coolant temperature sensor reaches 75°C (167°F) or more.

Tech Tips

The shift lever should be in neutral and the A/C switch and all accessory switches should be off.
Turn the tester on.
Enter the following menus: Powertrain / Engine and ECT / Data List / All Data.

Take a snapshot of the following Data List items.

CAUTION:

Obey all laws and regulations, and pay attention to driving conditions while driving the vehicle.

Tech Tips

A snapshot can be used to compare vehicle data from the time of the malfunction to normal data and is very useful for troubleshooting. The data in the illustration below is that of a normal vehicle, but as the data varies between individual vehicles, this data should only be used for reference.
Detailed graphs can be displayed by transferring the stored snapshot data from the tester to a PC (personal computer) with Intelligent Viewer installed.
Move the shift lever to 2nd gear and accelerate the vehicle with the accelerator fully open.

Reference Values with Engine Speed at 2000 rpm
Data List	Value	Unit
Vehicle Speed	29	km/h
Engine Speed	2000	rpm
Accel Position	99.60	%
Target Booster Pressure	216.85	kPa
MAP	183	kPa
MAF	43.94	gm/sec
Calculate Load	86.6	%
Target Common Rail Pressure	114330	kPa
Fuel Press	114950	kPa
Target Pump SCV Current	1102.0	mA
Injection Volume	36.48	mm³/st
VN Turbo Command	88	%
Actual EGR Valve Pos.	0.3	%
Actual Throttle Position	0	%

Reference Values with Engine Speed at 3000 rpm
Data List	Value	Unit
Vehicle Speed	44	km/h
Engine Speed	3000	rpm
Accel Position	99.60	%
Target Booster Pressure	215.85	kPa
MAP	217	kPa
MAF	72.47	gm/sec
Calculate Load	100.0	%
Target Common Rail Pressure	156460	kPa
Fuel Press	154320	kPa
Target Pump SCV Current	934.0	mA
Injection Volume	46.97	mm³/st
VN Turbo Command	32	%
Actual EGR Valve Pos.	0.3	%
Actual Throttle Position	0	%

Reference Values with Engine Speed at 3500 rpm (Point A)
Data List	Value	Unit
Vehicle Speed	52	km/h
Engine Speed	3500	rpm
Accel Position	99.60	%
Target Booster Pressure	213.45	kPa
MAP	216	kPa
MAF	79.02	gm/sec
Calculate Load	100.0	%
Target Common Rail Pressure	160000	kPa
Fuel Press	160030	kPa
Target Pump SCV Current	922.0	mA
Injection Volume	46.19	mm³/st
VN Turbo Command	19	%
Actual EGR Valve Pos.	0.3	%
Actual Throttle Position	0	%

Reference Values with Engine Speed at 4000 rpm
Data List	Value	Unit
Vehicle Speed	59	km/h
Engine Speed	4000	rpm
Accel Position	99.60	%
Target Booster Pressure	206.95	kPa
MAP	207	kPa
MAF	83.22	gm/sec
Calculate Load	100.0	%
Target Common Rail Pressure	160000	kPa
Fuel Press	160480	kPa
Target Pump SCV Current	919.0	mA
Injection Volume	40.87	mm³/st
VN Turbo Command	14	%
Actual EGR Valve Pos.	0.3	%
Actual Throttle Position	0	%

CHECK SNAPSHOT (MAP AND TARGET BOOSTER PRESSURE)

Check the condition of the vehicle using the snapshot.

Result
Result	Proceed to
MAP is less than "Target Booster Pressure - 15 kPa" when accelerating with accelerator fully open	A
MAP and Target Booster Pressure values are almost the same	B

PERFORM ENGINE SPEED ACCELERATION (CHECK FOR BLACK SMOKE) Click here

INSPECT VACUUM HOSE
1. Check the vacuum hose connection (turbo pressure sensor).
  
  OK
  
  Vacuum hose is connected securely.
NG
REPAIR OR REPLACE VACUUM HOSE

OK
CHECK INTAKE SYSTEM
1. Check for air leakage between the turbocharger and intake manifold.
2. Check for air leakage at intake manifold.
  Tech Tips
  
  Check that there are no disconnected or leaking hoses or pipes.
  
  Check that there are no modifications made by the user.
  OK
  
  No leakage.
NG
REPAIR OR REPLACE MALFUNCTIONING PARTS

OK
INSPECT TURBOCHARGER SUB-ASSEMBLY (MECHANICAL PROBLEM)
1. Inspect the turbocharger sub-assembly Click here.
NG
REPLACE TURBOCHARGER SUB-ASSEMBLY Click here

OK
PERFORM ENGINE SPEED ACCELERATION (CHECK FOR BLACK SMOKE)
1. Start the engine and drive the vehicle until the engine coolant temperature reaches 60°C (140°F) or higher.
2. Stop the vehicle and allow the engine to idle.
3. Fully depress the accelerator pedal for 5 seconds and then release it (A).
4. Repeat the above procedure A 10 times (B).
5. Check for black smoke emission during the above procedures A and B.
  
  OK
  
  Black smoke is emitted less than 5 times.
  
  Tech Tips
  
  Even if the black smoke is very thin, count the black smoke emission if there is any visible smoke.
NG
BASIC INSPECTION Click here

OK

END
BASIC INSPECTION
1. Check the fuel quality.
2. Check the fuel line for air.
3. Check the fuel system for blockages.
4. Check the air filter.
5. Check the engine oil.
6. Check the engine coolant.
7. Check the engine idling speed and maximum engine speed.
8. Check the vacuum pump.
  
  OK
  
  Each inspection result is normal.
NG
REPAIR OR REPLACE MALFUNCTIONING PARTS

OK
REPLACE EXHAUST TAIL PIPE ASSEMBLY (DPF CATALYTIC CONVERTER)
1. Replace the exhaust tail pipe assembly (DPF catalytic converter) Click here.
2. Clear the DPF deterioration record using the intelligent tester Click here.
NEXT
CHECK INTAKE SYSTEM DEPOSIT
1. Check if 3 mm (0.12 in.) or more of carbon has accumulated on the intake manifold, cylinder head, etc. and if so, clean it off.
NEXT
CONFIRM WHETHER MALFUNCTION HAS BEEN SUCCESSFULLY REPAIRED

NEXT

END

CHECK HARNESS AND CONNECTOR (SUCTION CONTROL VALVE - ECM)

Disconnect the suction control valve connector.
Disconnect the ECM connector.

Measure the resistance according to the value(s) in the table below.

Standard Resistance (Check for Open)

Tester Connection	Condition	Specified Condition
B42-2 - B9-12 (PCV)	Always	Below 1 Ω

Standard Resistance (Check for Short)

Tester Connection	Condition	Specified Condition
B42-2 or B9-12 (PCV) - Body ground	Always	10 kΩ or higher

Reconnect the suction control valve connector.
Reconnect the ECM connector.

REPAIR OR REPLACE HARNESS OR CONNECTOR

CHECK IF FUEL IS BEING SUPPLIED TO FUEL SUPPLY PUMP
1. Disconnect the inlet hose from the fuel supply pump.
2. Operate the priming pump and check that fuel is being supplied to the fuel supply pump.
  
  OK
  
  Fuel is properly supplied to the fuel supply pump when the priming pump is operated.
  Tech Tips
  - When there is a lack of fuel, fuel pressure drops.
  - Inspect for fuel filter clogging.
    
    (Check that the fuel filter is not clogged)
NG
CHECK AND REPLACE CLOGGED FUEL PIPE (INCLUDING FUEL FREEZING) (FUEL TANK - FUEL SUPPLY PUMP) Click here

OK
REPLACE SUPPLY PUMP
1. Replace the supply pump Click here.
NEXT
BLEED AIR FROM FUEL SYSTEM
1. Bleed the air from the fuel system Click here.
NEXT
CONFIRM WHETHER MALFUNCTION HAS BEEN SUCCESSFULLY REPAIRED

NEXT

END
REPLACE INJECTOR ASSEMBLY OF ALL CYLINDERS
1. Replace the injector assemblies Click here.
NEXT
PERFORM REGISTRATION AND INITIALIZATION
1. Register the injector compensation code Click here.
2. Perform Pilot Quantity Learning Values Reset Click here.
NEXT
BLEED AIR FROM FUEL SYSTEM
1. Bleed the air from the fuel system Click here.
NEXT
CONFIRM WHETHER MALFUNCTION HAS BEEN SUCCESSFULLY REPAIRED

NEXT

END
PERFORM ACTIVE TEST USING INTELLIGENT TESTER (CONTROL THE CYLINDER #1 TO #4 FUEL CUT)

Tech Tips

Use this Active Test to determine the malfunctioning cylinder.
1. Connect the intelligent tester to the DLC3.
2. Start the engine and turn the tester on.
3. Enter the following menus: Powertrain / Engine and ECT / Active Test / Control the Cylinder #1 to #4 Fuel Cut.
  Tech Tips
  - DTCs may be output after this Active Test. Make sure to check for DTCs after this Active Test. If any DTCs are output, make sure to clear them Click here.
  - If the engine idle speed does not change when a fuel injector is disabled, the cylinder being tested is malfunctioning.
  - If the cylinder being tested is normal, there will be a significant change in idle speed when the fuel injection is stopped for that cylinder.
NEXT

READ VALUE USING INTELLIGENT TESTER (ENGINE SPEED OF CYL #1 TO #4)

Tech Tips

The speed of each cylinder can be measured (compression test) by using the intelligent tester.

In the compression test, disconnect the injector connectors of all cylinders and crank the engine for approximately 10 seconds. At this time, the speed of each cylinder is measured. If the speed of one cylinder is higher than the other cylinders, the compression pressure of that cylinder is determined to be lower than the other cylinders.

Warm up the engine.
Turn the ignition switch off and disconnect the injector connector of all cylinders.
Connect the intelligent tester to the DLC3.
Turn the ignition switch to ON and turn the tester on.
Enter the following menus: Powertrain / Engine and ECT / Data List / Engine Speed of Cyl #1, Engine Speed of Cyl #2, Engine Speed of Cyl #3, Engine Speed of Cyl #4 and Av Engine Speed of All Cyl.
Crank the engine for about 10 seconds.
Note
- Do not crank the engine for more than 20 seconds.
- Use a fully-charged battery.

Read the engine speed (Engine Speed of Cyl #1 to #4, Av Engine Speed of All Cyl) displayed on the tester when the ignition switch is ON.

Tech Tips

Do not turn the ignition switch off when finished cranking.

Result
Result	Proceed to
Except below	A
The values of Engine Speed Cyl #1 to #4 are within +/-10 rpm of each other.	B

Tech Tips

When cranking, if the speed of a cylinder is approximately 100 rpm more than the other cylinders, there is probably a complete loss of compression in that cylinder.

Reconnect the injector connector of all cylinders.
Clear the DTCs.

REPLACE INJECTOR ASSEMBLY OF MALFUNCTIONING CYLINDER Click here

CHECK CYLINDER COMPRESSION PRESSURE OF MALFUNCTIONING CYLINDER
1. Check the cylinder compression pressure Click here.
  
  OK
  
  The cylinder compression pressure is within the standard range.
NG
CHECK ENGINE TO DETERMINE CAUSE OF LOW COMPRESSION

OK
REPLACE INJECTOR ASSEMBLY OF MALFUNCTIONING CYLINDER
1. Replace the injector assembly of the malfunctioning cylinder Click here.
NEXT
PERFORM REGISTRATION AND INITIALIZATION
1. Register the injector compensation code Click here.
2. Perform Pilot Quantity Learning Values Reset Click here.
NEXT
BLEED AIR FROM FUEL SYSTEM
1. Bleed the air from the fuel system Click here.
NEXT
CONFIRM WHETHER MALFUNCTION HAS BEEN SUCCESSFULLY REPAIRED

NEXT

END
CHECK AND REPLACE CLOGGED FUEL PIPE (INCLUDING FUEL FREEZING) (FUEL TANK - FUEL SUPPLY PUMP)
1. Check and replace the clogged fuel pipe.
NEXT
BLEED AIR FROM FUEL SYSTEM
1. Bleed the air from the fuel system Click here.
NEXT
CONFIRM WHETHER MALFUNCTION HAS BEEN SUCCESSFULLY REPAIRED

NEXT

END
PERFORM REGISTRATION AND INITIALIZATION
1. Register the injector compensation code Click here.
2. Perform Pilot Quantity Learning Values Reset Click here.
NEXT
CONFIRM WHETHER MALFUNCTION HAS BEEN SUCCESSFULLY REPAIRED

NEXT

END
CHECK IF FUEL IS BEING SUPPLIED TO FUEL SUPPLY PUMP
1. Disconnect the inlet hose from the fuel supply pump.
2. Operate the priming pump and check that fuel is being supplied to the fuel supply pump.
  
  OK
  
  Fuel is properly supplied to the fuel supply pump when the priming pump is operated.
  Tech Tips
  - When there is a lack of fuel, fuel pressure drops.
  - Inspect for fuel filter clogging.
    
    (Check that the fuel filter is not clogged)
NG
CHECK AND REPLACE CLOGGED FUEL PIPE (INCLUDING FUEL FREEZING) (FUEL TANK - FUEL SUPPLY PUMP) Click here

OK
REPLACE SUPPLY PUMP
1. Replace the supply pump Click here.
NEXT
BLEED AIR FROM FUEL SYSTEM
1. Bleed the air from the fuel system Click here.
NEXT

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

Connect the intelligent tester to the DLC3.
Turn the ignition switch to ON and turn the tester on.
Enter the following menus: Powertrain / Engine and ECT/ Active Test / Test the Fuel Leak / Data List / Fuel Press and Target Common Rail Pressure.
Take a snapshot with the tester during the Active Test.

Tech Tips

Detailed graphs can be displayed by transferring the stored snapshot data from the tester to a PC (personal computer) with Intelligent Viewer installed.
Maintain the engine speed of 3500 rpm, and then press the "Start" button.

Measure the difference between the target fuel pressure (Target Common Rail Pressure) and the actual fuel pressure (Fuel Press) when the Active Test / Test the Fuel Leak is performed.

Tech Tips

The EPS, ABS and SRS warning lights may blink when the engine speed exceeds 3500 rpm during this test.
To ensure accurate measurements, perform the Active Test with measurements 5 times or more.

Standard
The difference between the target fuel pressure and the actual fuel pressure is less than 15000 kPa when the target fuel pressure reaches the maximum value approximately 2 seconds after the Active Test starts.

Result
Result	Proceed to
Difference between target fuel pressure and actual fuel pressure is 15000 kPa or more	A
Difference between target fuel pressure and actual fuel pressure is less than 15000 kPa	B

CONFIRM WHETHER MALFUNCTION HAS BEEN SUCCESSFULLY REPAIRED Click here

REPLACE COMMON RAIL ASSEMBLY
1. Replace the common rail assembly Click here.
NEXT
BLEED AIR FROM FUEL SYSTEM
1. Bleed the air from the fuel system Click here.
NEXT
CONFIRM WHETHER MALFUNCTION HAS BEEN SUCCESSFULLY REPAIRED

NEXT

END