Land Cruiser URJ200 URJ202 GRJ200 VDJ200 - 1VD-FTV ENGINE CONTROL


ECD SYSTEM (w/ DPF) - DATA LIST / ACTIVE TEST

DATA LIST
  • HINT:
  • Using the GTS to read the Data List allows the values or states of switches, sensors, actuators and other items to be read without removing any parts. This non-intrusive inspection can be very useful because intermittent conditions or signals may be discovered before parts or wiring is disturbed. Reading the Data List information early in troubleshooting is one way to save diagnostic time.
  • NOTICE:
  • In the table below, the values listed under "Normal Condition" are reference values. Do not depend solely on these reference values when deciding whether a part is faulty or not.

Warm up the engine.

Turn the engine switch off.

Connect the GTS to the DLC3.

Turn the engine switch on (IG).

Start the engine.

Turn the GTS on.

Enter the following menus: Engine and ECT / Data List.

  • HINT:
To display the list box, press the pull down menu button next to "Primary". Then select a measurement group.
When you select a measurement group, the ECU data belonging to that group is displayed.
Measurement Group List / Description
All Data / All data
Primary / -
Diesel General / General diesel data
Common Rail / Diesel common rail system related data
Common Rail (All) / Diesel common rail system related data (All data)
Diesel EGR / Diesel EGR system related data
Diesel Throttle / Diesel throttle system related data
VN Turbo / VN turbo related data
Diesel Exhaust / After treatment control system related data
Diesel Starting / "Difficult to start" related data
Diesel Rough / "Rough idle" related data
Diesel Lack of Power / "Lack of power" related data
Diesel Knocking / "Knocking" related data
Diesel Black Smoke / "Black smoke" related data
Compression / Data used during "Check the Cylinder Compression" Active Test
A/T / Automatic transaxle system related data
Vehicle Information / Vehicle information

Check the values by referring to the table below.

  • NOTICE:
Normal Condition: If no idling conditions are specified, the shift lever should be in the neutral position, the A/C switch and all accessory switches should be off, and PM forced regeneration should not be being performed.
"Result of real-vehicle check" is the assessment of one vehicle. Use it only for reference.
Engine Control
Calculate Load
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Calculate LoadLoad calculated by ECM/
Min.: 0%, Max.: 100%
Idling: 6.5 to 21.6%
Running without load (2500 rpm): 16.5 to 21.0%
Calculated by ECMMalfunction in which turbo pressure or Mass Air Flow decreases
Results of real-vehicle check:
Engine switch on (IG): 0%
Idling (warm up the engine): 12.1% (2 minutes after starting the vehicle)
Running without load (2500 rpm): 15.2%
Running without load (4000 rpm): 25.8%
Diagnostic Note:
Calculated load = (Final injection volume / max. injection volume at current engine speed) x 100.
MAF
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
MAFAirflow rate from mass air flow meter/
Min.: 0 gm/sec, Max.: 400 gm/sec
Idling: 6.6 to 30 gm/sec
Running without load (2000 rpm): 39.4 to 120 gm/sec
  • HINT:
  • Depends on EGR rate
Sensor output (mass air flow meter)
Mass air flow meter
Mass air flow meter circuit
Intake related clog or leak
Exhaust related clog
Turbocharger sub-assembly
Leak or clog in passages for turbocharger
Malfunction in which EGR valve does not close
Results of real-vehicle check:
Engine switch on (IG): 0.01 gm/sec
Idling (warm up the engine): 7.43 gm/sec (2 minutes after starting the vehicle)
Running without load (2500 rpm): 67.34 gm/sec
Running without load (4000 rpm): 197.62 gm/sec
Symptoms when out of range:
Rough idling
Diagnostic Note:
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.
EVG circuit is open.
Engine Speed
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Engine SpeedEngine speed/
Min.: 0 rpm, Max.: 6000 rpm		550 to 650 rpm: Idling with warm engine and PM forced regeneration not being performed
  • HINT:
  • The idling speed during PM forced regeneration is 650 to 750 rpm
Sensor output (crankshaft position sensor)
Crankshaft position sensor
Crankshaft position sensor circuit
Diagnostic Note:
When the crankshaft position sensor is malfunctioning, "Engine Speed" is approximately 0 or varies greatly from the actual engine speed.
Target Idle Engine Speed
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Target Idle Engine SpeedTarget Idling Engine Speed/
Min.: 0 rpm, Max.: 10000 rpm		-Target idling speed (ECM calculated value)-
Diagnostic Note:
Target engine speed for idling speed control.
The ECM calculates the target engine idling speed while considering the air conditioner load, electric load, shift position changes, idle-up control for cold engine start, etc.
MAP
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
MAPAbsolute pressure inside intake manifold/
Min.: 0 kPa, Max.: 320 kPa
Idling: 90 to 102 kPa (under normal atmospheric pressure)
  • HINT:
  • Depends on barometric pressure and amount of EGR
Engine running at 3000 rpm: 100 to 150 kPa
Sensor output (manifold absolute pressure sensor)
Manifold absolute pressure sensor
Intake related clog or leak
Exhaust related clog
Turbocharger sub-assembly
Leak or clog in passages for turbocharger
EGR valve stuck open
Exhaust leak
Throttle valve stuck closed
Results of real-vehicle check:
Engine switch on (IG): 101 kPa
Idling (warm up the engine): 99 kPa (2 minutes after starting the vehicle)
Running without load (2500 rpm): 114 kPa
Running without load (4000 rpm): 156 kPa
Symptoms when out of range:
Lack of power
Diagnostic Note:
When the engine switch is on (IG) or the vehicle is idling, the intake manifold absolute pressure and atmospheric pressure are approximately the same (standard atmospheric pressure = 101 kPa).
Above approximately 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 actual manifold absolute pressure (MAP) is low compared to the target booster pressure by at least 20 kPa for 5 seconds or more, a feeling of insufficient power will occur.
Vehicle Speed
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Vehicle SpeedVehicle speed/
Min.: 0 km/h, Max.: 255 km/h		Actual vehicle speedSensor output (speed sensor)
Speed sensor
Speed sensor circuit
Coolant Temp
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Coolant TempEngine coolant temperature/
Min.: -40°C, Max.: 140°C		After warming up engine: 70 to 90°C (158 to 194°F)Sensor output (engine coolant temperature sensor)
Engine coolant temperature sensor
Thermostat
Symptoms when out of range:
Difficulty starting when engine is cold, rough idle, black smoke, lack of power
Diagnostic Note:
If the value is -40°C (-40°F) or 140°C (284°F), the sensor circuit is open or shorted.
After a long soak, the coolant temperature, intake air temperature and ambient temperature are approximately equal.
Intake Air
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Intake AirIntake air temperature/
Min.: -40°C, Max.: 140°C		Equivalent to temperature at location of mass air flow meterSensor output (intake air temperature sensor (built into mass air flow meter))Intake air temperature sensor
Diagnostic Note:
After a long soak, the engine coolant temperature, intake air temperature and ambient temperature are approximately equal.
If the value is -40°C (-40°F) or 140°C (284°F), the sensor circuit is open or shorted.
Initial Engine Coolant Temp
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Initial Engine Coolant TempInitial engine coolant temperature/
Min.: -40°C, Max.: 120°C		Engine coolant temperature when engine startedSensor output when engine started-
Diagnostic Note:
For freeze frame data, this tells whether the malfunction happened at a cold start or with a warm engine.
Initial Intake Air Temp
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Initial Intake Air TempInitial intake air temperature/
Min.: -40°C, Max.: 120°C		Intake air temperature when engine startedSensor output when engine started-
Intake Air Temp (Turbo)
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Intake Air Temp (Turbo)Intake air temperature after intercooler/
Min.: -40°C, Max.: 190°C		70°C (158°F) or lessSensor output (intake air temperature sensor after intercooler)Decreased cooling efficiency of intercooler (contamination, clogging)
Diagnostic Note:
This is the intake air temperature at the intake manifold (after the intercooler).
During fail-safe operation, the value is set to 165°C (329°F). As the value is set to a high temperature, the turbo pressure may be suppressed and there may be a lack of power.
Alternate Duty Ratio
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Alternate Duty RatioAlternator generation duty ratio/
Min.: 0%, Max.: 100%
No electrical load at idling:
20 to 60%
High electrical load at idling:
100%
Duty value from ALT terminal
Battery deterioration
Alternator malfunction
Electric load, lights, etc.
Results of real-vehicle check:
Idling (no electrical load) (warm up the engine): 40% (2 minutes after starting the vehicle)
Diagnostic Note:
This outputs the alternator generation duty and is used to determine the electrical load.
Can be used to determine whether a higher-than-normal injection volume at idle, etc. is due to electrical loading or from some other source. For example, when the duty is not high but the idling injection volume is high, there is injector volume degradation or high engine friction.
Can be used for judging whether or not a malfunctioning component in the electrical system is generating continual generation requests (e.g., battery deterioration is causing an unending full recharge request, etc.). Regardless of whether or not an auxiliary device like the A/C or heater is active, if the alternator duty is always at the maximum value, there is an electrical system abnormality, like battery deterioration.
Viscous Heater Stop Request
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Viscous Heater Stop RequestViscous heater stop request/
ON or OFF		ON: Viscous heater stop requested--
A/C Signal
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
A/C SignalA/C (Air Conditioner) signal/
ON or OFF		ON: A/C onA/C operation signal output from A/C amplifier
ON: Operating
OFF: Not operating
A/C switch
A/C amplifier
A/C system malfunction, wire harness between A/C amplifier and ECU open or shorted
Symptoms when out of range:
OFF malfunction (OFF even when A/C switch is turned on):
Engine speed decreases temporarily when the A/C is operating.
Stop Light Switch
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Stop Light SwitchStop light switch/
ON or OFF
ON: Brake pedal depressed
OFF: Brake pedal released
Switch output (stop light switch)
OFF malfunction: Wire harness (stop light switch to ECM, stop light switch to +B) open or shorted to ground
ON malfunction: Wire harness (stop light switch to ECM) shorted to +B
Stop light switch
Symptoms when out of range:
Stop light switch malfunction DTC P0504 is stored
Diagnostic Note:
Stop light switch (STP) operation condition:
ON: Light is on (Brake pedal is depressed)
OFF: Light is off (Brake pedal is released)
Battery Voltage
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Battery VoltageBattery voltage/
Min.: 0 V, Max.: 15 V		11 to 14 V--
Results of real-vehicle check:
Engine switch on (IG): 12.558 V
Idling (warm up the engine): 13.554 V
Running without load (2500 rpm): 13.769 V
Running without load (4000 rpm): 13.574 V
Symptoms when out of range:
If 5 V or less, starting becomes difficult
Diagnostic Note:
If 11 V or less, characteristics of some electrical components change.
Atmosphere Pressure
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Atmosphere PressureAtmospheric pressure value/
Min.: 50 kPa, Max.: 120 kPa		Actual atmospheric pressureSensor output (atmospheric pressure sensor (built into ECM))Atmospheric pressure sensor itself has failed (atmospheric pressure sensor is inside the ECM)
Diagnostic Note:
With the engine switch on (IG), when the difference between the atmospheric pressure sensor and intake manifold absolute pressure is 10 kPa or more, there is a malfunction in one of the sensors.
With the engine switch on (IG), when the atmospheric pressure is 0 kPa or 140 kPa, there is a malfunction in the sensor circuit.
Standard atmospheric pressure: 101 kPa.
For every 100 m increase in elevation, pressure drops by 1 kPa.
This varies by weather (high atmospheric pressure, low atmospheric pressure).
ACT VSV
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
ACT VSVA/C cut status/
ON or OFF		---
Diagnostic Note:
"Control the A/C Cut Signal" Active Test support data.
TC and TE1
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
TC and TE1TC and TE1 connection status/
ON or OFF		---
Diagnostic Note:
When the "Connect the TC and TE1" Active Test is performed, the system behaves as if TC and CG were connected.
# Codes (Include History)
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
# Codes (Include History)Number of codes/
Min.: 0, Max.: 255		---
Diagnostic Note:
Number of DTCs appearing at least once during the last 40 times the vehicle was warmed up.
Check Mode
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Check ModeCheck mode status/
ON or OFF		ON: Check mode on--
Diagnostic Note:
Check Mode: The mode in which certain DTCs can be detected more easily and with higher sensitivity.
MIL
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
MILMIL status/
ON or OFF		OFF: MIL off--
MIL ON Run Distance
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
MIL ON Run DistanceDistance traveled with MIL on/
Min.: 0 km, Max.: 65535 km		Distance traveled after DTC storedResult of ECU calculations (using the vehicle speed)-
Diagnostic Note:
Distance traveled after a DTC is stored.
Cleared when the cable is disconnected from the negative (-) battery terminal, or when the DTC is cleared using the GTS.
Running Time from MIL ON
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Running Time from MIL ONRunning time after MIL turns on/
Min.: 0 min., Max.: 65535 min.		Running time after MIL turns on--
Diagnostic Note:
Engine run time since the MIL illumination.
Cleared when the cable is disconnected from the negative (-) battery terminal, or when the DTC is cleared using the GTS.
Engine Run Time
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Engine Run TimeEngine run time/
Min.: 0 sec., Max.: 65535 sec.		Time after the engine switch turned on (IG)Result of ECU calculations (using the engine speed)-
Diagnostic Note:
Time passed since the engine switch was turned on (IG).
Time after DTC Cleared
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Time after DTC ClearedTime after DTC cleared/
Min.: 0 min., Max.: 65535 min.		Time after DTCs cleared--
Diagnostic Note:
Time elapsed since the DTCs were cleared (or shipment from the factory).
Distance from DTC Cleared
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Distance from DTC ClearedDistance driven after DTC cleared/
Min.: 0 km, Max.: 65535 km		Distance driven after DTCs cleared--
Diagnostic Note:
Distance driven since the DTCs were cleared.
(Data List "Distance from DTC clear") - (Freeze frame data "Distance from DTC cleared") = Distance driven since the abnormality occurred.
Warmup Cycle Cleared DTC
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Warmup Cycle Cleared DTCWarmup cycles after DTC cleared/
Min.: 0, Max.: 255		---
Diagnostic Note:
Number of engine warmup since DTCs were cleared.
(Data List "Warmup Cycle Cleared DTC") - (Freeze frame data "Warmup Cycle Cleared DTC") = Warmup cycles since the abnormality occurred.
OBD Requirements
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
OBD RequirementsIdentifying OBD requirement---
Diagnostic Note:
Euro-OBD
Number of Emission DTC
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Number of Emission DTCNumber of emissions-related DTCs---
Power Steering Signal
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Power Steering SignalPower steering switch status:
ON or OFF		ON: Power steering operationSwitch output (power steering switch)
OFF malfunction: Wire harness (power steering switch to ECM) is open or shorted to ground
ON malfunction:
Wire harness (power steering switch to ECM) is shorted to +B
Power steering switch malfunction
Symptoms when out of range:
OFF malfunction (OFF during power steering operation): Engine speed decreases temporarily when power steering is operating
ACC Relay
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
ACC RelayACC relay status
ON or OFF		ON: ACC relay ON--
Transfer L4
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Transfer L4L4 status of the transfer/
ON or OFF		ON: 4WD control switch in 4L position--
Idle Up Signal
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Idle Up SignalStatus of the idle up signal/
ON or OFF		---
TC Terminal
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
TC TerminalTC terminal status/
ON or OFF		---
Dist Batt Cable Disconnect
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Dist Batt Cable DisconnectDistance driven after battery cable disconnected/
Min.: 0 km, Max.: 65535 km		Total distance vehicle driven after battery cable disconnected--
IG OFF Elapsed Time
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
IG OFF Elapsed TimeTime after engine switch turned off/
Min.: 0 min, Max.: 655350 min		Cumulative time after engine switch turned off--
Minimum Engine Speed
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Minimum Engine SpeedMinimum engine speed/
Min.: 0 rpm, Max.: 51199 rpm		---
ACM Inhibit
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
ACM InhibitVSV for engine mount status:
ON or OFF		---
Diagnostic Note:
VSV for engine mount status:
Engine switch is on (IG): OFF.
Idling: ON.
Active Test "Control the ACM Inhibit" support data.
Accel Position
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Accel PositionAccelerator position status/
Min.: 0%, Max.: 100%
Accelerator pedal released:
0%
Accelerator pedal fully depressed:
100%
Accelerator pedal position sensor opening position
ECT requested opening position
Cruise requested opening position
VSC requested opening position
-
Results of real-vehicle check:
Engine switch on (IG): 0.00% (accelerator pedal released)
Running without load (2500 rpm): 23.52%
Running without load (4000 rpm): 40.78%
Diagnostic Note:
"Accel Position" is the accelerator opening amount (%) for engine control use.
When the accelerator pedal position sensor output itself (Accelerator Position 1, Accelerator Position 2) is in the normal voltage range, another actuator malfunction has caused the fail-safe function to restrict the accelerator.
Without cruise, ECT or VSC requests, and without accelerator restriction by the fail-safe function, this is adjusted in proportion to the amount the accelerator pedal is depressed by the driver.
Accelerator pedal released: 0%
Accelerator pedal fully depressed: 100%
  • HINT:
  • Accel Sens. No.1 Volt % and Accel Sens. No.2 Volt % express the value obtained by dividing the output voltage from the accelerator pedal position sensor by 5. This is used only for diagnosing malfunctions in the accelerator pedal position sensor. Under normal conditions, it is sufficient to only check the final accelerator opening angle value "Accel Position".
Accel Sens. No.1 Volt %
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Accel Sens. No.1 Volt %Accelerator position No. 1/
Min.: 0%, Max.: 100%
Accelerator pedal released:
10 to 22%
Accelerator pedal fully depressed:
52 to 90%
Sensor output (Accelerator pedal position sensor)-
Diagnostic Note:
Read value with engine switch on (IG) (do not start engine).
Accel Sens. No.2 Volt %
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Accel Sens. No.2 Volt %Accelerator position No. 2/
Min.: 0%, Max.: 100%
Accelerator pedal released:
24 to 40%
Accelerator pedal fully depressed:
68 to 99%
Sensor output (Accelerator pedal position sensor)-
Diagnostic Note:
Read value with engine switch on (IG) (do not start engine).
Compression
Engine Speed of Cyl #1 to Engine Speed of Cyl #8
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Engine Speed of Cyl #1
Engine Speed of Cyl #2
Engine Speed of Cyl #3
Engine Speed of Cyl #4
Engine Speed of Cyl #5
Engine Speed of Cyl #6
Engine Speed of Cyl #7
Engine Speed of Cyl #8		Engine speed for No. 1 to No. 8 cylinder/
Min.: 0 rpm, Max.: 51199 rpm		Engine speeds of all cylinders almost same-Compression goes down
Symptoms when out of range:
When the engine speeds of all cylinders are not equal, idling will be rough.
Diagnostic Note:
Output only when the "Check the Cylinder Compression" Active Test is performed.
Indicates the speed of each cylinder when cranking.
Example - Normal: Engine speeds of all cylinders are approximately equal.
When No. 1 cylinder compression is low, "Engine Speed of Cyl #1" is approximately 300 rpm, and "Engine Speed of Cyl #2 to #8" is approximately 200 rpm.
Av Engine Speed of All Cyl
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Av Engine Speed of All CylEngine speed for all cylinders/
Min.: 0 rpm, Max.: 51199 rpm		---
Diagnostic Note:
Output only when the Active Test "Check the Cylinder Compression" is performed.
Indicates the average engine speed of all cylinders during cranking.
Vehicle Information
Model Code
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Model CodeModel code---
Diagnostic Note:
Identifying model code: VDJ200
Engine Type
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Engine TypeEngine type---
Diagnostic Note:
Identifying engine type: 1VDFTV
Cylinder Number
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Cylinder NumberCylinder number/
Min.: 0, Max.: 255		---
Diagnostic Note:
Identifying cylinder number: 8
Transmission Type
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Transmission TypeTransaxle type/
MT or ECT 6th		---
Diagnostic Note:
Identifying transaxle type:
MT: Manual transmission
ECT 6th: Automatic transmission
Destination
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
DestinationDestination---
Diagnostic Note:
Identifying destination: W
Model Year
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Model YearModel year/
Min.: 1900, Max.: 2155		---
Diagnostic Note:
Identifying model year: 20##
System Identification
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
System IdentificationSystem identification---
Diagnostic Note:
Used for identifying the engine system: Diesel (diesel engine)
Diesel Injection
Injection Volume
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Injection VolumeInjection volume/
Min.: 0 mm3/st, Max.: 1279.98 mm3/st		Idling: 3 to 10 mm3/stCalculated value-
Results of real-vehicle check:
Idling (warm up the engine and A/C off): 6.09 mm3/st
Running without load (2500 rpm): 7.34 mm3/st
Running without load (4000 rpm): 11.85 mm3/st
Diagnostic Note:
Injection amount for each combustion.
If injector assemblies are clogged, fuel quality is poor, the fuel filter element sub-assembly is clogged, or engine friction increases, "Injection Volume" will increase.
If there is a malfunction due to low turbocharger pressure or a low intake air volume, the injection volume is limited and there is a lack of power.
Inj. FB Vol. for Idle
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Inj. FB Vol. for IdleIdle stability status integral control volume/
Min.: -80 mm3/st, Max.: 79 mm3/st 		-10 to 10 mm3/st--
Results of real-vehicle check:
Idling (warm up the engine): -0.75 mm3/st
Symptoms when out of range:
Engine friction problem, compression problem or injector breakdown
Diagnostic Note:
When the actual engine speed does not match the target idling speed, this corrects the injection volume.
If this item displays 10 mm3/st or more or -10 mm3/st or less even with the engine completely warmed up and the air conditioning and other electrical loads off, the internal parts of the engine may be damaged, or the fuel injection system or other auxiliary components may be malfunctioning.
Only calculated and reflected at idle.
Inj Vol Feedback Learning
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Inj Vol Feedback LearningInjection volume feedback learning value/
Min.: -10 mm3/st, Max.: 9.92 mm3/st		---
Idle Signal Output Value, Idle Signal Output Value#2
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Idle Signal Output Value
Idle Signal Output Value #2		Idle Signal Output Value/
ON or OFF
ON: Idling
OFF: Not idling
--
Diagnostic Note:
Piezo injector creates a large amount of operation noise when idling. To reduce the noise level, this item lowers driving energy when idling. This item displays the value for controlling driving energy.
If the display does not match the vehicle condition, DTC P1626, P1627, P1629 and P162A will be stored.
If the injector assembly is not a Piezo injector, the value will be always "OFF".
Injection Feedback Val #1 to Injection Feedback Val #8
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Injection Feedback Val #1
Injection Feedback Val #2
Injection Feedback Val #3
Injection Feedback Val #4
Injection Feedback Val #5
Injection Feedback Val #6
Injection Feedback Val #7
Injection Feedback Val #8		Injection volume correction for each cylinder/
Min.: -10 mm3/st, Max.: 10 mm3/st		Idling: -3.0 to 3.0 mm3/stLearned value
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)
Symptoms when out of range:
Rough idling, black smoke, white smoke, poor driveability, lack of power, abnormal combustion noise, difficult to start
Diagnostic Note:
When idling after warmup, 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 3.0 mm3/st: Injector breakdown is causing injection volume deviation, or insufficient compression is causing poor combustion.
Even if "Injection Feedback Val" for a cylinder is less than -3.0 mm3/st, the cylinder with this value does not necessarily have a problem.
  • HINT:
The ECM adjusts each cylinder so that the average "Injection Feedback Val" of the 8 cylinders is approximately 0 mm3/st.
If more than one cylinder has a positive correction value, a normal cylinder may have a value less than -3.0 mm3/st.
Pilot 1 Injection Period
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Pilot 1 Injection PeriodPilot 1 injection period/
Min.: 0 μs, Max.: 65535 μs		Idling: 135 to 279 μsCalculated value-
Results of real-vehicle check:
Idling (warm up the engine): 210 μs
Running without load (2500 rpm): 0 μs
Running without load (4000 rpm): 0 μs
Symptoms when out of range:
Combustion noise, poor driveability, white smoke
Diagnostic Note:
Check to see if "Pilot 1 Injection Period" is not zero when symptoms occur.
Pilot 2 Injection Period
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Pilot 2 Injection PeriodPilot 2 injection period/
Min.: 0 μs, Max.: 65535 μs		Idling: 113 to 312 μsCalculated value-
Results of real-vehicle check:
Idling (warm up the engine): 210 μs (2 minutes after starting the vehicle)
Running without load (2500 rpm): 130 μs
Running without load (4000 rpm): 131 μs
Symptoms when out of range:
Combustion noise, poor driveability, white smoke
Diagnostic Note:
Check to see if "Pilot 2 Injection Period" is not zero when symptoms occur.
Main Injection Period
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Main Injection PeriodMain injection period/
Min.: 0 μs, Max.: 65535 μs		Idling: 157 to 542 μsCalculated value-
Results of real-vehicle check:
Idling (warm up the engine): 278 μs (2 minutes after starting the vehicle)
Running without load (2500 rpm): 227 μs
Running without load (4000 rpm): 251 μs
Diagnostic Note:
When the fuel pressure becomes 15000 kPa or less, "Main Injection Period" is set to 0.
When the engine will not start, confirm that injection is performed.
When P0093, P0627, P062D or P062E is stored, there is an engine stall request. At that time, "Main Injection Period" equals 0.
  • HINT:
  • As the engine stalls 1 minute after the MIL illuminates, freeze frame data cannot be checked.
After Injection Period
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
After Injection PeriodAfter injection period/
Min.: 0 μs, Max.: 65535 μs		-Calculated value-
Diagnostic Note:
Check to see if "After Injection Period" is not zero when the following symptoms occur:
Black smoke, poor driveability.
Pilot 1 Injection Timing
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Pilot 1 Injection TimingPilot 1 injection timing/
Min.: -70°CA, Max.: 20°CA		Idling after engine warmed up and vehicle under normal atmospheric pressure: (BTDC) 10.8 to (BTDC) 5.8°CACalculated value-
Results of real-vehicle check:
Engine switch on (IG): 9.8°CA
Idling (warm up the engine): 9.7°CA
Running without load (2500 rpm): 20.8°CA
Running without load (4000 rpm): 29.4°CA
Diagnostic Note:
  • HINT:
Negative values indicate values after top dead center (ATDC).
Positive values indicate values before top dead center (BTDC).
Pilot 2 Injection Timing
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Pilot 2 Injection TimingPilot 2 injection timing/
Min.: -50°CA, Max.: 20°CA		Idling after engine warmed up and vehicle under normal atmospheric pressure: (BTDC) 6 to (BTDC) 1°CACalculated value-
Results of real-vehicle check:
Engine switch on (IG): 5.0°CA
Idling (warm up the engine): 4.8°CA
Running without load (2500 rpm): 8.5°CA
Running without load (4000 rpm): 13.8°CA
Diagnostic Note:
  • HINT:
Negative values indicate values after top dead center (ATDC).
Positive values indicate values before top dead center (BTDC).
Main Injection Timing
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Main Injection TimingMain injection timing/
Min.: -90°CA, Max.: 90°CA		Idling after engine warmed up and vehicle under normal atmospheric pressure: (BTDC) 2 to -(ATDC) 3°CACalculated value-
Results of real-vehicle check:
Engine switch on (IG): 0.0°CA
Idling (warm up the engine): 0.8°CA
Running without load (2500 rpm): -0.5°CA
Running without load (4000 rpm): -1.2°CA
Diagnostic Note:
Use "Main Injection Timing" to check poor drivability when the following symptoms are present: Bad injection timing, black smoke, and white smoke.
  • HINT:
Negative values indicate values after top dead center (ATDC).
Positive values indicate values before top dead center (BTDC).
After Injection Timing
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
After Injection TimingAfter injection timing/
Min.: -10°CA, Max.: 50°CA		-Calculated Value-
Results of real-vehicle check:
Engine switch on (IG): -12.3°CA
Idling (warm up the engine): -12.3°CA
Running without load (2500 rpm): -20.3°CA
Running without load (4000 rpm): -31.4°CA
Diagnostic Note:
  • HINT:
Negative values indicate values after top dead center (ATDC).
Positive values indicate values before top dead center (BTDC).
Pilot Quantity Learning
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Pilot Quantity LearningStatus of the pilot quantity learning/
Standby, Wait, Learn, Stop, Comple		-Calculated value-
Diagnostic Note:
The status is only displayed while performing "Pilot Quantity Learning".
If "Pilot Quantity Learning" is incomplete, the MIL illuminates and DTC P062F is stored.
Injector Pilot Quantity Learning
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Injector Pilot Quantity Learning Status of the injector pilot quantity learning/
Ready or NG		---
Actuator Pilot Quantity Learning
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Actuator Pilot Quantity Learning Status of the actuator pilot quantity learning/
Ready or NG		---
Temperature Pilot Quantity Learning
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Temperature Pilot Quantity LearningStatus of the temperature pilot quantity learning/
Ready or NG		---
Catalyst Pilot Quantity Learning
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Catalyst Pilot Quantity LearningStatus of the catalyst pilot quantity learning/
Ready or NG		---
Injection Pressure Correction
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Injection Pressure CorrectionInjection pressure feedback compensation volume/
Min.: -500 mm3/st, Max.: 780 mm3/st		-20 to 20 mm3/st at standard temperatureCalculated value
Suction control valve malfunction
Clogged fuel filter element sub-assembly
Results of real-vehicle check:
Engine switch on (IG): 6.25 mm3/st
Idling (warm up the engine): 9.23 mm3/st (2 minutes after starting the vehicle)
Running without load (2500 rpm): -6.3 mm3/st
Running without load (4000 rpm): 1.44 mm3/st
Diagnostic Note:
When the (actual) fuel pressure is equal to the target fuel pressure, this value becomes 0.
This indicator can be used for diagnosing supply pump related malfunctions.
When this value (absolute value) is large, it indicates that the difference between the actual and target fuel pressure is also large.
A positive value indicates that the pressure feed is being increased due to insufficient pressure. A negative value indicates that pressure is being reduced due to excessive rail pressure.
When the suction control valve does not close properly, it causes rail overpressure, and this value and the "Pump SCV Learning Value" slip to the negative volume side.
Injection EDU Relay Request, Injection EDU Relay Request #2
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Injection EDU Relay Request
Injection EDU Relay Request #2		Status of the EDU relay request/
ON or OFF		ON: EDU relay ON--
Target Common Rail Pressure
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Target Common Rail PressureTarget common rail pressure/
Min.: 0 kPa, Max.: 250000 kPa		25000 to 200000 kPa when engine runningTarget common rail pressure (ECU calculated value)-
Diagnostic Note:
Inspect the (actual) fuel pressure, comparing it with the common rail target value.
Considered normal when the actual fuel pressure is within +/-5000 kPa of the target fuel pressure under stable conditions when idling after warming up the engine.
Common Rail Pressure
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Common Rail PressureActual common rail pressure/
Min.: 0 kPa, Max.: 250000 kPa		Idling: 27000 to 49000 kPaSensor output (fuel pressure sensor)
Fuel supply pump assembly
High pressure pipes
Fuel pressure sensor
Injector assembly
Feed pump (fuel supply pump assembly)
Fuel filter element sub-assembly
Pressure discharge valve
Air in the fuel pipes
Lack of fuel
Results of real-vehicle check:
Engine switch on (IG): 0 kPa
Idling (warm up the engine): 32830 kPa (2 minutes after starting the vehicle)
Running without load (2500 rpm): 60030 kPa
Running without load (4000 rpm): 95590 kPa
Symptoms when out of range:
Difficult to start, poor driveability, lack of power, abnormal combustion noise
Diagnostic Note:
Common Rail 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 after warming up the engine, the fuel pressure is within +/-5000 kPa of the target fuel pressure.
The ECM uses fuel pressure for feedback control of the target fuel pressure via the fuel supply pump assembly.
The injection amount is determined based on the injection timing and fuel pressure.
Also, the spray pattern is selected based on the fuel pressure.
For startup, at least 25000 kPa of fuel pressure is needed (take care as there is a response lag when the pressure rises).
When the fuel pressure is below 25000 kPa, it may cause rough idling.
When the fuel pressure has decreased by 20000 kPa from the target fuel pressure, there may be a lack of power.
If actual fuel pressure is 5000 kPa higher than the target fuel pressure, P1229 will be stored. When the actual fuel pressure is lower than the target fuel pressure, "P1608 Lack of Power" may be detected depending on the degree of deviation from the target pressure.
When the fuel pressure is higher than 250000 kPa, DTC P0088 will be stored.
Fuel Temperature
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Fuel TemperatureFuel temperature/
Min.: -40°C, Max.: 140°C		Actual fuel temperatureSensor output (fuel temperature sensor)-
Diagnostic Note:
After fully cold soaking the engine, the fuel temperature is the same as the outside air temperature.
Target Pump SCV Current
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Target Pump SCV CurrentFinal pump current target value/
Min.: 0 mA, Max.: 4000 mA		Idling: 802 to 1202 mATarget value control (pump current)
Suction control valve malfunction
Clogged fuel filter element sub-assembly
Results of real-vehicle check:
Engine switch on (IG): 1083.8 mA
Idling (warm up the engine): 1087.2 mA (2 minutes after starting the vehicle)
Running without load (2500 rpm): 1112.2 mA
Running without load (4000 rpm): 1186.7 mA
Symptoms when out of range:
Difficulty starting, lack of power or rough idling
Diagnostic Note:
ECU-calculated value for the suction control valve actuation target current.
Value is large when a high fuel pressure is desired.
Normally, the value is between 800 and 2500 mA.
If the value is stuck at 3000 mA or higher, it indicates that the 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.
Pump SCV Learning Value
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Pump SCV Learning ValuePump SCV learning value/
Min.: -4096 mA, Max.: 4095.8 mA
Min.: -200 mA
Max.: 200 mA
Learned value
Suction control valve malfunction
Clogged fuel filter element sub-assembly
Results of real-vehicle check:
Engine switch on (IG): 76.1 mA
Idling (warm up the engine): 76.1 mA (2 minutes after starting the vehicle)
Running without load (2500 rpm): 80.8 mA
Running without load (4000 rpm): 85.3 mA
Symptoms when out of range:
Difficulty starting, lack of power or rough idling
Diagnostic Note:
If the value is stuck at 200 mA or higher or -200 mA or less, it indicates that the operation is poor (poor movement due to deposits, etc.).
Pump SCV Status
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Pump SCV StatusPump SCV Status/
ON or OFF		---
Pump SCV Duty Request
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Pump SCV Duty RequestPump SCV duty request/
Min.: 0 %, Max.: 39.9 %		-Calculated value-
Pressure Discharge Valve
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Pressure Discharge ValvePressure discharge valve operation/
ON or OFF		ON: Pressure discharge valve open--
Diagnostic Note:
This is the ECM command.
EGR System
Target EGR Valve Pos, Target EGR Valve Pos #2
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Target EGR Valve Pos,
Target EGR Valve Pos #2		EGR valve target opening amount/
Min.: 0%, Max.: 100%		Idling after engine warmed up: 0 to 65%ECU-calculated value based on sensors (mass air flow meter, manifold absolute pressure sensor, intake air temperature (built into mass air flow meter), etc.)-
Results of real-vehicle check (Target EGR Valve Pos,):
Engine switch on (IG): 0%
Idling (warm up the engine): 38.8%
Running without load (2500 rpm): 36.0%
Running without load (4000 rpm): 0%
Symptoms when out of range:
When value is out of range and approaching 0%: mass air flow meter degradation, intake or exhaust system blockage
When value is out of range and approaching 100%: EGR pipe blockage
Diagnostic Note:
Fully open: 100%.
Fully closed: 0%.
Used for comparison to "Actual EGR Valve Pos" and "Actual EGR Valve Pos #2".
Actual EGR Valve Pos, Actual EGR Valve Pos #2
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Actual EGR Valve Pos
Actual EGR Valve Pos #2		Actual EGR valve position/
Min.: 0%, Max.: 100%		Idling after engine warmed up: 0 to 83%Calculated from EGR valve position sensor-
Symptoms when out of range:
EGR valve stuck open: Poor starts (engine does not stop), black smoke, white smoke, lack of power
EGR valve stuck closed: Increased turbo booster noise
Diagnostic Note:
Fully open: 100%.
Fully closed: 0%.
Inspect while comparing to "Target EGR Valve Pos" and "Target EGR Valve Pos #2".
Check the valve movement via the Active Test.
Sometimes malfunctions only occur around a certain temperature, so refer to the engine coolant temperature and outside temperature at the time the malfunction occurred.
EGR Position Sensor, EGR Position Sensor #2
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
EGR Position sSensor
EGR Position Sensor #2		EGR position sensor position:
Min.: 0 V, Max.: 4.99 V		Idling after engine warmed up: 0.8 to 4.5 VSensor output (EGR valve position sensor)-
Results of real-vehicle check (EGR Position Sensor):
Engine switch on (IG): 3.813 V
Idling (warm up the engine): 2.812 V
Diagnostic Note:
This is the output voltage of the EGR valve position sensor.
EGR Motor Duty #1, EGR Motor Duty #2
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
EGR Motor Duty #1
EGR Motor Duty #2		EGR valve actuation duty:
Min.: 0%, Max.: 127.5%		Idling after engine warmed-up: 0 to 100%--
Diagnostic Note:
This EGR Motor Duty #1 is calculated based on Target EGR Valve Pos. to actuate the No. 1 EGR valve assembly.
This EGR Motor Duty #2 is calculated based on Target EGR Valve Pos #2 to actuate the No. 2 EGR valve assembly.
To 0%: Close side EGR valve actuation.
To 100%: Open side EGR valve actuation.
When this value is large but the actual valve position does not reach the target valve position, there is an unable to open malfunction.
EGR Close Lrn. Val., EGR Close Lrn. Val #2
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
EGR Close Lrn. Val.
EGR Close Lrn. Val. #2		EGR fully closed position learned value/
Min.: 0 V, Max.: 5 V		3.5 to 4.5 VEGR valve position sensor value when EGR valve fully closed-
Results of real-vehicle check (EGR Close Lrn. Val.):
Engine switch on (IG): 3.811 V
Diagnostic Note:
This value is the EGR position sensor output voltage.
When the value is at the upper or lower limit of the normal range, it is possible that a foreign object is lodged in the EGR valve seat area.
As the lower and upper limits are 3.5 V and 4.5 V respectively, if the value becomes stuck at either of these values, there is a malfunction in the lift sensor or the valve position may be misaligned (foreign matter is present, etc.).
Diesel Throttle System
Throttle Sensor Volt %, Throttle Sensor #2 Volt %
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Throttle Sensor Volt %
Throttle Sensor #2 Volt %		Absolute throttle position sensor/
Min.: 0%, Max.: 100%
Engine switch on (IG): 60 to 80%
Warmed-up and idling: 9 to 80%
Sensor output (throttle position sensor)-
Results of real-vehicle check (Throttle Sensor Volt %):
Engine switch on (IG): 69.8%
Idling (warm up the engine): 18.8%
Running without load (2500 rpm): 45.4%
Running without load (4000 rpm): 69.8%
Symptoms when out of range:
Stuck closed: Engine stall, difficult to start, rough idling, lack of power, black smoke, white smoke
Stuck open: Loud turbocharging sound, bad vibration when engine is stopped
When the ECM detects a malfunction with the diesel throttle (MIL on), engine power is restricted but city driving is possible.
Diagnostic Note:
Throttle position sensor output voltage is converted using 5 V = 100%.
When fully closed: 14%.
When fully open: 70%.
When the engine switch is turned from off to on (IG), the throttle valve fully opens once.
When the engine switch is turned from on (IG) to off, the throttle valve fully closes once.
Target Throttle Position, Target Throttle Position #2
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Target Throttle Position
Target Throttle Position #2		Target throttle position/
Min.: -128%, Max.: 127%
Throttle valve fully opened: 100%
Throttle valve fully closed: 0%
Value calculated by ECM-
Diagnostic Note:
If there is a malfunction of the throttle actuator, compare the target and actual throttle position values for troubleshooting.
  • HINT:
  • Closing percentage of the throttle valve.
Fully closed: 0%.
Fully open: 100%.
Actual Throttle Position, Actual Throttle Position #2
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Actual Throttle Position
Actual Throttle Position #2		Actual diesel throttle position/
Min.: -20%, Max.: 120%		Idling after engine warmed-up: 5 to 100%--
Results of real-vehicle check (Actual Throttle Position):
Engine switch on (IG): 100%
Idling (warm up the engine): 9.0%
Running without load (2500 rpm): 56.8%
Running without load (4000 rpm): 100%
Symptoms when out of range:
Stuck closed: Engine stall, difficult to start, lack of power, black smoke, rough idle
Stuck open: Loud turbocharging sound, bad vibration when engine is stopped
When ECM detects a malfunction of the diesel throttle (MIL on), engine power is restricted so that the vehicle can drive with a maximum speed of 80 to 100 km/h.
Diagnostic Note:
  • HINT:
  • Closing percentage of the throttle valve.
Fully closed: 0%.
Fully open: 100%.
  • There is no connection with the accelerator. However, under full load, the throttle is usually fully open (100%).
Throttle Motor Duty, Throttle Motor Duty #2
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Throttle Motor Duty
Throttle Motor Duty #2		Diesel throttle motor duty/
Min.: 0%, Max.: 100%		---
Results of real-vehicle check (Throttle Motor Duty):
Idling (warm up the engine): 38.5%
Running without load (2500 rpm): 51.0%
Running without load (4000 rpm): 63.0%
Diagnostic Note:
When the moving force to open and close the diesel throttle valve increases, the value of Throttle Motor Duty increases.
Throttle Close Learning Val., Throttle Close Learning Val. #2
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Throttle Close Learning Val.
Throttle Close Learning Val #2		Throttle fully closed position learned value/
Min.: 0 deg, Max.: 84 deg		14.25 to 21.25 deg--
Results of real-vehicle check (Throttle Close Learning Val.):
Engine switch on (IG): 17.13 deg
Diagnostic Note:
When the engine switch is turned from on (IG) to off and 5 seconds elapse, learning of "Throttle Close Learning Val." and "Throttle Close Learning Val #2" will be complete.
When "Throttle Close Learning Val." is outside of the normal range, a foreign object may be lodged in the throttle valve (for bank 1).
When "Throttle Close Learning Val #2" is outside of the normal range, a foreign object may be lodged in the throttle valve (for bank 2).
If the value is stuck at the upper limit of 21.25 deg, there is a chance that a malfunction is present.
However, as the initial value for the learned value is 21.25 deg, it is necessary to check the value after learning is completed.
VN Turbo System
Target Booster Pressure
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Target Booster PressureTarget booster pressure/
Min.: 0 kPa, Max.: 320 kPa		Driving vehicle on level surface at 3000 rpm with full load: 200 to 225 kPaValue calculated by ECM-
Diagnostic Note:
Inspect while comparing with "MAP".
With the accelerator fully open, if the actual manifold absolute pressure (MAP) is low compared to the target booster pressure by at least 20 kPa for 5 sec. or more, a feeling of a lack of power will occur.
When the vehicle is driven with the engine speed at 3000 rpm or more and the accelerator pedal fully depressed, "MAP" is approximately equal to "Target Booster Pressure".
Target VN Turbo Position, Target VN Turbo Position #2
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Target VN Turbo Position
Target VN Turbo Position #2		Target VN turbo position/
Min.: 0%, Max.: 100%		2 to 80%--
Diagnostic Note:
  • HINT:
When the nozzle vanes are fully closed (boost is applied), the value is 0%.
When the nozzle vanes are fully opened (boost is not applied), the value is 100%.
Actual VN Turbo Position, Actual VN Turbo Position #2
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Actual VN Turbo Position
Actual VN Turbo Position #2		Actual VN turbo position/
Min.: 0%, Max.: 100%		2 to 80%--
Results of real-vehicle check (Actual VN Turbo Position):
Engine switch on (IG): 0%
Idling (warm up the engine): 12.1%
Running without load (2500 rpm): 20.3%
Running without load (4000 rpm): 38.8%
Diagnostic Note:
If the vanes do not move smoothly or become stuck, the difference between the actual value and the target value becomes larger, and as a result, the motor duty also becomes larger.
  • HINT:
When the nozzle vanes are fully closed (boost is applied), the value is 0%.
When the nozzle vanes are fully opened (boost is not applied), the value is 100%.
VN Position Sensor Out, VN Position Sensor Out #2
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
VN Position Sensor Out
VN Position Sensor Out #2		VN position sensor output voltage/
Min.: 0 V, Max.: 5 V		Idling after engine warmed-up: 1.572 to 2.532 V--
VN Motor Duty, VN Motor Duty #2
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
VN Motor Duty
VN Motor Duty #2		VN turbo motor duty/
Min.: 0%, Max.: 127.5%		0 to 100%--
Diagnostic Note:
If the vanes do not move smoothly, the duty will increase towards 100%.
VN Close Learn Value, VN Close Learn Value #2
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
VN Close Learn Value
VN Close Learn Value #2		VN turbo fully closed position learned value/
Min.: 0 V, Max.: 5 V		1.192 to 2.152 V--
VN Turbo Max Angle
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
VN Turbo Max AngleVN turbo maximum opening amount/
Min.: 0%, Max.: 100%		---
Results of real-vehicle check:
Engine switch on (IG): 48.0%
Diagnostic Note:
The maximum vane opening amount is displayed in %.
The VN turbo is operated between VN Turbo Max Angle and VN Turbo Min Angle when the Test the Turbo Charger Step Motor Active Test is performed.
VN Turbo Min Angle
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
VN Turbo Min AngleVN turbo minimum opening amount/
Min.: 0%, Max.: 100%		---
Results of real-vehicle check:
Engine switch on (IG): 0%
Diagnostic Note:
The minimum vane opening amount is displayed in %.
The VN turbo is operated between VN Turbo Max Angle and VN Turbo Min Angle when the Test the Turbo Charger Step Motor Active Test is performed.
Exhaust control system
AF Lambda B1S1, AF Lambda B2S1
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
AF Lambda B1S1
AF Lambda B2S1		Lambda equivalent ratio/
Min.: 0, Max.: 255
AF Lambda B1S1 = air-fuel ratio / 14.5 (Stoichiometric A/F ratio)
Value less than 1 (0.000 to 0.999): Rich
Value more than 1 (1.001 to 255): Lean
Air-fuel ratio = intake air mass / (main fuel injection and exhaust fuel addition injection mass)
-
Air fuel ratio sensor
Air fuel ratio sensor circuit
Injector assembly clogged
Results of real-vehicle check (AF Lambda B1S1):
  • HINT:
  • This is the reference value for when the air fuel ratio sensor is activated.
The engine is warmed up and the vehicle is being driven at a steady speed of 50 km/h (31 mph) in 5th gear (engine speed is 1000 rpm): 1.6
The engine is warmed up and the vehicle is being driven at a steady speed of 70 km/h (44 mph) in 5th gear (engine speed is 1400 rpm): 1.55
Diagnostic Note:
Check the air fuel ratio sensor output (AF Lambda B1S1) with the exhaust gas temperature (Exhaust Temperature B1S2) at 200°C (392°F) or higher (example: driving at speed of 50 km/h (31 mph) or more in 3rd gear).
Check the air fuel ratio sensor output (AF Lambda B2S1) with the exhaust gas temperature (Exhaust Temperature B2S2) at 200°C (392°F) or higher (example: driving at speed of 50 km/h (31 mph) or more in 3rd gear).
If the exhaust fuel addition injector assembly is clogged, the AF Lambda B1S1 and AF Lambda B2S1 values change according to engine combustion, but large changes due to the addition of fuel are not seen even when PM forced regeneration is performed with the GTS.
Furthermore, if the main injectors become clogged, the AF Lambda B1S1 and AF Lambda B2S1 values will increase under all circumstances while the engine is running (the value increases regardless of whether the PM forced regeneration has been performed).

Ecd System (W/ Dpf) - Data List / Active Test. 1VD-FTV ENGINE CONTROL. Land Cruiser URJ200 URJ202 GRJ200 VDJ200

AFS Voltage B1S1, AFS Voltage B2S1
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
AFS Voltage B1S1
AFS Voltage B2S1		Air fuel ratio sensor output voltage/
Min.: 0 V, Max.: 7.999 V		--
Air fuel ratio sensor
Air fuel ratio sensor circuit
Injector assembly clogged
Results of real-vehicle check (AFS Voltage B1S1):
  • HINT:
  • This is the reference value for when the air fuel ratio sensor is activated.
The engine is warmed up and the vehicle is being driven at a steady speed of 50 km/h (31 mph) in 5th gear (engine speed is 1000 rpm): 0.68 V
The engine is warmed up and the vehicle is being driven at a steady speed of 70 km/h (44 mph) in 5th gear (engine speed is 1400 rpm): 0.67 V
Diagnostic Note:
Check the air fuel ratio sensor output (AFS Voltage B1S1) with the exhaust gas temperature (Exhaust Temperature B1S2) at 200°C (392°F) or higher (example: driving at speed of 50 km/h (31 mph) or more in 3rd gear).
Check the air fuel ratio sensor output (AFS Voltage B2S1) with the exhaust gas temperature (Exhaust Temperature B2S2) at 200°C (392°F) or higher (example: driving at speed of 50 km/h (31 mph) or more in 3rd gear).
If the exhaust fuel addition injector assembly is clogged, the AFS voltage B1S1 and AFS voltage B2S1 values change according to engine combustion, but large changes due to the addition of fuel are not seen even when PM forced regeneration is performed with the GTS.
AFS Current B1S1, AFS Current B2S1
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
AFS Current B1S1
AFS Current B2S1		Air fuel ratio sensor current/
Min.: -128 mA, Max.: 128 mA		--
Air fuel ratio sensor
Air fuel ratio sensor circuit
Injector assembly clogged
Results of real-vehicle check (AFS Current B1S1):
  • HINT:
  • This is the reference value for when the air fuel ratio sensor is activated.
The engine is warmed up and the vehicle is being driven at a steady speed of 50 km/h (31 mph) in 5th gear (engine speed is 1000 rpm): 0.94 mA
The engine is warmed up and the vehicle is being driven at a steady speed of 70 km/h (44 mph) in 5th gear (engine speed is 1400 rpm): 0.92 mA
Diagnostic Note:
Check the air fuel ratio sensor output (AFS Current B1S1) with the exhaust gas temperature (Exhaust Temperature B1S2) at 200°C (392°F) or higher (example: driving at speed of 50 km/h (31 mph) or more in 3rd gear).
Check the air fuel ratio sensor output (AFS Current B2S1) with the exhaust gas temperature (Exhaust Temperature B2S2) at 200°C (392°F) or higher (example: driving at speed of 50 km/h (31 mph) or more in 3rd gear).
If the exhaust fuel addition injector assembly is clogged, even if PM forced regeneration is performed with the GTS, the AFS voltage B1S1 and AFS voltage B2S1 values will not change.
AF Sensor Learning Value, AF Sensor Learning Value #2
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
AF Sensor Learning Value
AF Sensor Learning Value #2		Air fuel ratio sensor learning value/
Min.: 0 V, Max.: 5 V		-Value calculated by ECM-
Results of real-vehicle check (AF Sensor Learning Value):
Engine switch on (IG): 1.93 V
Diagnostic Note:
Inspect the air fuel ratio sensor performance.
A/F Heater Duty #1, A/F Heater Duty #2
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
A/F Heater Duty #1
A/F Heater Duty #2		Air fuel ratio sensor heater duty ratio/
Min.: 0%, Max.: 399.9%		---
Diagnostic Note:
When the value is any value except 0%, current is being supplied to the heater.
Exhaust Temperature B1S1, Exhaust Temperature B2S1
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Exhaust Temperature B1S1
Exhaust Temperature B2S1		Exhaust gas temperature of CCo catalyst/
Min.: -40°C, Max.: 1000°C
Idling after engine warmed-up: 100 to 200°C (212 to 392°F)
During PM forced regeneration: 200 to 300°C (392 to 572°F)
Sensor output (Exhaust gas temperature sensor B1S1, B2S1)
Exhaust gas temperature sensor (B1S1)
Exhaust gas temperature sensor (B2S1)
DPF catalytic converter deteriorated
Diagnostic Note:
If an open occurs in an exhaust temperature sensor circuit, -40°C (-40°F) is displayed on the GTS.
If a short occurs in an exhaust temperature sensor circuit, 1000°C (1832°F) is displayed on the GTS.
Exhaust Temperature B1S2, Exhaust Temperature B2S2
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Exhaust Temperature B1S2
Exhaust Temperature B2S2		Exhaust gas temperature of DPF catalytic converter/
Min.: -40°C, Max.: 1000°C
Idling after engine warmed-up: 100 to 250°C (212 to 482°F)
During PM forced regeneration: 500 to 700°C (932 to 1292°F)
Sensor output (No. 2 exhaust gas temperature sensor B1S2, No. 3 exhaust gas temperature sensor B2S2)
No. 2 exhaust gas temperature sensor (B1S2)
No. 3 exhaust gas temperature sensor (B2S2)
DPF catalytic converter deteriorated
Diagnostic Note:
If an open occurs in an exhaust temperature sensor circuit, -40°C (-40°F) is displayed on the GTS.
If a short occurs in an exhaust temperature sensor circuit, 1000°C (1832°F) is displayed on the GTS.
Exhaust Temperature B1S3, Exhaust Temperature B2S3
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Exhaust Temperature B1S3
Exhaust Temperature B2S3		Exhaust gas temperature of DPF catalytic converter/
Min.: -40°C, Max.: 1000°C
Idling after engine warmed-up: 100 to 250°C (212 to 482°F)
During PM forced regeneration: 500 to 700°C (932 to 1292°F)
Sensor output (No. 4 exhaust gas temperature sensor B1S3, B2S3)
No. 4 exhaust gas temperature sensor (B1S3)
No. 4 exhaust gas temperature sensor (B2S3)
DPF catalytic converter deteriorated
Diagnostic Note:
If an open occurs in an exhaust temperature sensor circuit, -40°C (-40°F) is displayed on the GTS.
If a short occurs in an exhaust temperature sensor circuit, 1000°C (1832°F) is displayed on the GTS.
DPF Differential Pressure, DPF Differential Pressure #2
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
DPF Differential Pressure
DPF Differential Pressure #2		DPF differential pressure/
Min.: -5 kPa, Max.: 100 kPa		Engine switch on (IG):
Approximately 0 kPa		Sensor output (Differential pressure sensor)
DPF catalytic converter
Differential pressure sensor
Vacuum transmitting pipe clogged
Differential pressure sensor vacuum hose clogged
Results of real-vehicle check (DPF Differential Pressure):
Engine switch on (IG): -0.33 kPa
Idling (warm up the engine): 0.05 kPa
Running without load (2500 rpm): 2.17 kPa
Running without load (4000 rpm): 5.93 kPa
Diagnostic Note:
When PM (Particulate Matter) builds up in the DPF catalytic converter (bank 1), the "DPF Differential Pressure" value increases.
When PM (Particulate Matter) builds up in the DPF catalytic converter (bank 2), the "DPF Differential Pressure #2" value increases.
At 3000 rpm (no load), if Catalyst Differential Press is 0.45 or more, the DPF catalytic converter (bank 1) has become blocked.
At 3000 rpm (no load), if Catalyst Differential Press #2 is 0.45 or more, the DPF catalytic converter (bank 2) has become blocked.
Catalyst Differential Press, Catalyst Differential Press #2
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Catalyst Differential Press
Catalyst Differential Press #2		Amount of clogging in catalyst/
Min.: -4, Max.: 3.9998		0.45 or lessCalculated value-
Results of real-vehicle check (Catalyst Differential Press):
Engine switch on (IG): -0.235
Idling (warm up the engine): 0.018
Running without load (2500 rpm): 0.034
Running without load (4000 rpm): 0.051
Symptoms when out of range:
If the difference in pressure increases, a decrease in engine power may be felt.
If an abnormal difference in pressure is detected, engine power is limited to protect the engine and catalyst.
Diagnostic Note:
Diagnosis is possible when the MAF reading is between 30 and 140 gm/sec.
When the air intake volume is very low, such as when idling, due to excessive pressure fluctuation the correct values will not be displayed.
Catalyst Differential Press is the DPF Differential Pressure corrected in response to the MAF and other values.
Catalyst Differential Press #2 is the DPF Differential Pressure #2 corrected in response to the MAF and other values.
If the filter in the DPF catalytic converter (bank 1) is clogged, the "Catalyst Differential Press" value increases.
If the filter in the DPF catalytic converter (bank 2) is clogged, the "Catalyst Differential Press #2" value increases.
When the difference in pressure exceeds approximately 0.45, DTC P244B is stored and "DPF PM Block" displays "Blocked".
When the difference in pressure exceeds approximately 0.45, DTC P2465 is stored and "DPF PM Block" displays "Blocked".
Diff. Press. Sensor Corr., Diff. Press Sensor Corr #2
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Diff. Press. Sensor Corr.
Diff. Press Sensor Corr #2		Differential pressure sensor 0 point learned value/
Min.: -10 kPa, Max.: 245.9 kPa		Engine switch on (IG) (engine stopped): - 1.5 to 1.5 kPa-Differential pressure sensor
Diagnostic Note
This number indicates the correction value (0 point calibration) for compensation of variance in the differential pressure sensor.
If the value of DPF Differential Pressure does not approach 0 kPa when the engine switch is on (IG) (engine is stopped) and the Diff. Press. Sensor Corr. displays less than -1.5 kPa or more than 1.5 kPa, there may be a malfunction in the differential pressure sensor.
If the value of DPF Differential Pressure #2 does not approach 0 kPa when the engine switch is on (IG) (engine is stopped) and the Diff. Press. Sensor Corr #2. displays less than -1.5 kPa or more than 1.5 kPa, there may be a malfunction in the differential pressure sensor.
Note that the output of the differential pressure sensor fluctuates depending on the temperature.
Exhaust Fuel Addition Injector Status, Exhaust Fuel Addition Injector Status #2
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Exhaust Fuel Addition Injector Status
Exhaust Fuel Addition Injector Status #2		Status of the exhaust fuel addition injector/
ON or OFF		ON: Exhaust fuel addition injector assembly operating--
Exhaust Fuel Addition FB, Exhaust Fuel Addition FB #2
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Exhaust Fuel Addition FB
Exhaust Fuel Addition FB #2		Exhaust fuel addition correction value/
Min.: 0.8, Max.: 1.99		0.80 to 1.45Value calculated by ECM
Exhaust fuel addition injector clogged
DPF catalytic converter deteriorated
Results of real-vehicle check (Exhaust Fuel Addition FB):
Engine switch on (IG): 0.95
Diagnostic Note
Usually Exhaust Fuel Addition FB and Exhaust Fuel Addition FB #2 are between 0.80 and 1.45.
Exhaust Fuel Addition FB is a correction value to increase the fuel volume injected from the exhaust fuel addition injector assembly (bank 1) when the catalyst temperature does not rise to the target range during PM forced regeneration.
Exhaust Fuel Addition FB #2 is a correction value to increase the fuel volume injected from the exhaust fuel addition injector assembly (bank 2) when the catalyst temperature does not rise to the target range during PM forced regeneration.
If the correction value is more than 1.45, a clog in the exhaust fuel addition injector assembly or fuel filter may be causing a reduction in injection volume or a problem with the engine (injectors, EGR, etc.) where the exhaust gas temperature decreases may be present. As a result, the catalyst temperature does not rise properly causing the catalyst to deteriorate.
DPNR/DPF Status Reju(PM)
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
DPNR/DPF Status Reju(PM)PM forced regeneration status/
Standby, Ready, Operate, Compl		During PM forced regeneration: Operate--
Diagnostic Note:
The status is only displayed while performing "Activate the DPF Rejuvenate (PM)".
Standby
Before entering the "Activate the DPF Rejuvenate (PM)".
Ready
Enabling condition for "Activate the DPF Rejuvenate (PM)" is not met.
Operate
PM forced regeneration is being performed.
If "Activate the DPF Rejuvenate (PM)" does not finish completely, the status turns to "Ready".
If "Activate the DPF Rejuvenate (PM)" finishes completely, the status turns to "Compl".
Compl
PM forced regeneration is completed.
PM Accumulation Ratio, PM Accumulation Ratio #2
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
PM Accumulation Ratio
PM Accumulation Ratio #2		PM accumulation ratio/
Min.: 0%, Max.: 510%		---
Diagnostic Note:
When PM forced regeneration is necessary, 100% is displayed for PM accumulation ratio.
If the ratio exceeds 100%, PM forced regeneration will be performed automatically.
Diesel Starting
Glow Relay Request, Glow Relay Request #2
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Glow Relay Request
Glow Relay Request #2		Status of the glow relay request
ON or OFF		---
Glow Indicator
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Glow IndicatorStatus of the glow indicator
ON or OFF		---
Starter Signal
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Starter SignalStarter signal/
Open or Close		Open: Cranking-
Close malfunction (engine switch (STA) is ON but the signal is Close and the starter is operating): Wire harness is open or shorted to ground
Open malfunction (engine switch (STA) is off but the signal is Open and the starter is not operating): Wire harness is shorted to +B
Operation malfunction: engine switch malfunction, starter relay malfunction, starter malfunction, battery or battery cable is defective, or wire harness is open or shorted
Symptoms when out of range:
Engine switch is on (IG) but the starter does not operate: Starting is not possible
Engine switch is off but the starter continues to operate: STA signal malfunction (P0617) is stored
Diagnostic Note:
Engine switch (STA) output:
Open: Starter is operating
Close: Starter is not operating
Starter Control
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Starter ControlStatus of the starter control/
ON or OFF		---
Diagnostic Note:
This item indicates the status of the engine switch.
Starter Relay
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Starter RelayStatus of the starter relay/
ON or OFF		ON: Starter relay ON--
Neutral Position SW Signal
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Neutral Position SW SignalNeutral position switch status/
ON or OFF		ON: Shift lever in neutralSwitch output (neutral position switch)-
Immobiliser Communication
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Immobiliser CommunicationImmobiliser communication/
ON or OFF
ON: Normal
OFF: Engine cannot be started due to immobiliser communication malfunction
-
Use of a non-registered key
Key battery is fully depleted
Engine Speed (Starter Off)
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Engine Speed (Starter Off)Engine speed when starter off/
Min.: 0 rpm, Max.: 1594 rpm		---
Diagnostic Note:
Engine speed immediately after starting the engine.
Starter Count
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Starter CountStarter on count/
Min.: 0, Max.: 255		---
Diagnostic Note:
Number of times the starter turned on from the time the engine switch was turned to on (IG).
Run Dist of Previous Trip
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Run Dist of Previous TripDistance driven during previous trip/
Min.: 0 km, Max.: 261 km		---
Diagnostic Note:
Before 5 seconds elapse after starting the engine, which is the DTC P1604 (Startability Malfunction) detection duration, this parameter indicates the distance driven during the previous trip. After 5 seconds elapse after starting the engine, this parameter indicates the distance driven during the current trip calculated from the vehicle speed signal.
  • HINT:
Run Dist of Previous Trip in the freeze frame data present when the startability malfunction occurred (DTC P1604 detected) indicates the distance driven during the previous trip, but in all other cases, such as for the snapshot data of the Data List (real-time measurements), or for freeze frame data present when DTCs other than P1604 were detected, the value indicates the distance driven during the current trip.
If DTCs indicating insufficient power or problems with the DPF system, diesel throttle or EGR valve are stored, confirm this item in the freeze frame data of the stored DTCs to determine the distance driven when the DTCs were stored. The distance driven can be used as a reference when troubleshooting.
Glow Request Lighting Time
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Glow Request Lighting TimeGlow request lighting time/
Min.: 0 ms, Max.: 33423 ms		---
Diagnostic Note:
By comparing Glow Request Lighting Time to IG-ON Time, the operation state (whether the engine was started, etc.) can be determined.
If the malfunction occurred when starting a cold engine at 0°C (32°F) or less, this item is useful in determining whether the engine was started after the glow plug indicator lights turned off.
IG-ON Time
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
IG-ON TimeIG-ON time/
Min.: 0 ms, Max.: 33423 ms		---
Diagnostic Note:
By comparing Glow Request Lighting Time to IG-ON Time, the operation state (whether the engine was started, etc.) can be determined.
If the malfunction occurred when starting a cold engine at 0°C (32°F) or less, this item is useful in determining whether the engine was started after the glow plug indicator lights turned off.
Engine Starting Time
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Engine Starting TimeEngine starting time/
Min.: 0 ms, Max.: 267000 ms		---
Diagnostic Note:
This is the time elapsed after the starter turns on until the engine speed reaches 400 rpm.
This value is cleared 5 seconds after the engine is started and the value is displayed as 0 ms.
Immobiliser Fuel Cut History
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Immobiliser Fuel Cut HistoryImmobiliser fuel cut history/
ON or OFF		OFF--
Diagnostic Note:
If Immobiliser Fuel Cut History was "ON" when DTC P1604 (Startability Malfunction) was stored, the engine could not be started due to the immobiliser.
Diesel Rough
Rough Idle #1 to Rough Idle #8
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Rough Idle #1
Rough Idle #2
Rough Idle #3
Rough Idle #4
Rough Idle #5
Rough Idle #6
Rough Idle #7
Rough Idle #8		Status of the Rough Idle #1 to #8/
ON or OFF		OFF-Injector assembly
Diagnostic Note:
This item indicates cylinders which had speeds lower than the other cylinders.
This item indicates cylinders which are likely to be the cause of rough idle.
Electric Duty Feedback Value
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Electric Duty Feedback ValueElectric load feedback value/
Min.: 0 mm3/st, Max.: 39.8 mm3/st		0 to 2.5 mm3/st--
Diagnostic Note:
Expected injection volume increase after the electrical load turns from off to on.
A/C Duty Feedback Value
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
A/C Duty Feedback ValueA/C load feedback value/
Min.: 0 mm3/st, Max.: 39.8 mm3/st		0 to 2.0 mm3/st--
Diagnostic Note:
Expected injection volume increase after the A/C turns from off to on.
PS Duty Feedback Value
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
PS Duty Feedback ValuePower steering load feedback value/
Min.: 0 mm3/st, Max.: 39.8 mm3/st		0 mm3/st--
Diagnostic Note:
Expected injection volume increase after the power steering turns from off to on.
Idle Injection Volume (Min)
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Idle Injection Volume (Min)Idle minimum injection volume/
Min.: 0 mm3/st, Max.: 39.8 mm3/st		---
Diesel Power
MAF Low
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
MAF LowLow mass airflow/
ON or OFF		OFF-
Mass air flow meter (value is out of range)
Intake system blockage
Disconnected air hoses (intake system)
EGR system (EGR valve closing malfunction)
Nozzle vane (turbocharger sub-assembly) movement problems
Symptoms when out of range:
Lack of power
Diagnostic Note:
When DTC P1608 is output, this item indicates whether the cause of lack of power is related to the intake air amount.
This item indicates whether the intake air amount measured by the mass air flow meter was insufficient, which would cause the fuel injection volume to be reduced for a certain period of time. If this is the case, this item displays "ON" and DTC P1608 (lack of engine power) is stored.
This item is "ON" when the intake air amount is low due to blockage in the intake system, disconnection of hoses or an excessive amount of EGR, and also when the intake air amount is measured to be low due to deterioration of the mass air flow meter.
Boost Pressure Low
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Boost Pressure LowLow boost pressure/
ON or OFF		OFF-
Nozzle vane (turbocharger sub-assembly) stuck
Disconnected air hoses (intake system)
Manifold absolute pressure sensor
Atmospheric pressure sensor (built into ECM)
Difference between atmospheric pressure and intake pressure
EGR valve does not close
Throttle valve does not open
Symptoms when out of range:
Lack of power
Diagnostic Note:
When DTC P1608 is output, this item indicates whether the cause of lack of power is due to the boost pressure.
This item indicates whether the actual boost pressure was insufficient compared to the target boost pressure, which would cause the fuel injection volume to be reduced for a certain period of time. If this is the case, this item displays "ON" and DTC P1608 (lack of engine power) is stored.
Common Rail Pressure Low
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Common Rail Pressure LowLow common rail pressure/
ON or OFF		OFF-
Suction control valve (movement problems)
Fuel leak
Fuel pressure sensor (common rail assembly (for bank 1))
Symptoms when out of range:
Lack of power
Diagnostic Note:
When DTC P1608 is output, this item indicates whether the cause of lack of power is the common rail pressure.
This item indicates whether the actual common rail pressure was lower than the target pressure for a certain period of time. If this is the case, this item displays "ON" and DTC P1608 (lack of engine power) is stored.
Engine Coolant Temp High
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Engine Coolant Temp HighHigh engine coolant temperature/
ON or OFF		OFF-
Engine coolant temperature sensor
Engine coolant leak
Radiator clog
Symptoms when out of range:
Lack of power
Diagnostic Note:
When DTC P1608 is output, this item indicates whether the cause of lack of power is due to a high engine coolant temperature.
This item indicates whether the fuel injection volume was reduced for a certain period of time due to a high engine coolant temperature (overheating). If this is the case, this item displays "ON" and DTC P1608 (lack of engine power) is stored.
MAF/Estimate MAF Ratio
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
MAF/Estimate MAF RatioRatio of intake air amount to estimated intake air amount/
Min.: 0, Max.: 2.55		Engine speed 4000 rpm, EGR system off:
0.6 to 1.4		-
Mass air flow meter sub-assembly
Turbocharger sub-assembly
Pipes between turbocharger sub-assembly and intake manifold are disconnected or leaking
Pipes between mass air flow meter sub-assembly and turbocharger sub-assembly are disconnected or leaking
Symptoms when out of range:
Lack of power
Diagnostic Note:
Even when the system is normal, the value may deviate from the range specified in Normal Condition for a short period of time (approximately 1 second).
This item indicates the ratio of the intake air amount to the estimated intake air amount. The estimated air amount is calculated using the intake manifold pressure and intake air temperature.
When DTC P1608 is stored, this item is useful in determining whether there is a problem in the turbocharger system or a disconnected or leaking pipe in the high pressure intake system when the boost pressure is insufficient.
When performing troubleshooting, this information is only valid when there is a high load (the diesel throttle is fully open) and the EGR system is off.
Support Data (Monitor Support Status)
Support Data
Tester DisplayMeasurement Item/RangeNormal ConditionDiagnostic Note
Intake Air Temp (Turbo) SupportedIntake Air Temperature (Turbo) Support/
Unsupp or Supp		-*1
Glow Indicator SupportedGlow Indicator Support/
Unsupp or Supp		-*1
Target Throttle Position SupportedTarget Throttle Position Support/
Unsupp or Supp		-*1
Target Throttle Position #2 SupportedTarget Throttle Position #2 Support/
Unsupp or Supp		-*1
Actual Throttle Position SupportedActual Throttle Position Support/
Unsupp or Supp		-*1
Actual Throttle Position #2 SupportedActual Throttle Position #2 Support/
Unsupp or Supp		-*1
Target Common Rail Pressure SupportedTarget Common Rail Pressure Support/
Compl or Incmpl		-*1
Common Rail Pressure SupportedCommon Rail Pressure Support/
Unsupp or Supp		-*1
Fuel Temperature SupportedFuel Temperature Support/
Unsupp or Supp		-*1
Target EGR Valve Pos SupportedTarget EGR Valve Pos Support/
Unsupp or Supp		-*1
Target EGR Valve Pos #2 SupportedTarget EGR Valve Pos #2 Support/
Unsupp or Supp		-*1
Actual EGR Valve Pos SupportedActual EGR Valve Pos Support/
Unsupp or Supp		-*1
Actual EGR Valve Pos #2 SupportedActual EGR Valve Pos #2 Support/
Unsupp or Supp		-*1
Target Booster Pressure SupportedTarget Booster Pressure Support/
Unsupp or Supp		-*1
VN Turbo Command SupportedVN Turbo Command Support/
Unsupp or Supp		-*1
VN Turbo Command #2 SupportedVN Turbo Command #2 Support/
Unsupp or Supp		-*1
Actual VN Position SupportedActual VN Position Support/
Unsupp or Supp		-*1
Actual VN Position #2 SupportedActual VN Position #2 Support/
Unsupp or Supp		-*1
Exhaust Temperature B1S1 SupportedExhaust Temperature B1S1 Support/
Unsupp or Supp		-*1
Exhaust Temperature B1S2 SupportedExhaust Temperature B1S2 Support/
Unsupp or Supp		-*1
Exhaust Temperature B1S3 SupportedExhaust Temperature B1S3 Support/
Unsupp or Supp		-*1
Exhaust Temperature B2S1 SupportedExhaust Temperature B2S1 Support/
Unsupp or Supp		-*1
Exhaust Temperature B2S2 SupportedExhaust Temperature B2S2 Support/
Unsupp or Supp		-*1
Exhaust Temperature B2S3 SupportedExhaust Temperature B2S3 Support/
Unsupp or Supp		-*1
DPF Differential Pressure SupportedDPF Differential Pressure Support/
Unsupp or Supp		-*1
DPF Differential Pressure #2 SupportedDPF Differential Pressure #2 Support/
Unsupp or Supp		-*1
*1:
Supp: The item is supported by the vehicle.
Unsupp: The monitor is not supported by the vehicle.
AT (for Automatic Transmission)
Shift Status
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Shift StatusECM gearshift command/
1st, 2nd, 3rd, 4th, 5th and 6th		Same as actual gear ratio--
SPD (NT)
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
SPD (NT)Input turbine speed/
Min.: 0 rpm, Max.: 12750 rpm
Lock-up ON (After warming up engine): Input turbine speed (NT) equal to engine speed
Lock-up OFF (Idling at P or N position): Input turbine speed (NT) nearly equal to engine speed
--
Diagnostic Note:
Data is displayed in increments of 50 rpm.
Lock Up
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
Lock UpLock-up/
ON or OFF
ON: Lock up operating
OFF: Lock up not operating
--
A/T Oil Temperature 1
Tester DisplayMeasurement Item/RangeNormal ConditionTypeCause of Out of Range
A/T Oil Temperature 1ATF temperature sensor value/
Min.: -40°C, Max.: 215°C		With engine cold:
Equal to ambient temperature		--
Diagnostic Note:
If the value is -40°C (-40°F) or 150°C (302°F), the ATF temperature sensor circuit is open or shorted.
ACTIVE TEST
  • HINT:
  • Using the GTS to perform Active Tests allows relays, VSVs, actuators and other items to be operated without removing any parts. This non-intrusive functional inspection can be very useful because intermittent operation may be discovered before parts or wiring is disturbed. Performing Active Tests early in troubleshooting is one way to save diagnostic time. Data List information can be displayed while performing Active Tests.

Connect the GTS to the DLC3.

Turn the engine switch on (IG).

Turn the GTS on.

Enter the following menus: Engine and ECT / Active Test.

Perform the Active Test.

Tester DisplayTest PartControl RangeDiagnostic Note
Control the A/C Cut SignalControl the A/C signalON/OFFConfirm that the vehicle is stopped and the engine is idling
Control the ACM InhibitControl the VSV for engine mountON/OFF-
Connect the TC and TE1Turn on the TC and TE1 connectionON/OFF-
Activate the Starter RelayActivate starter relayON/OFF-
Activate the ACC Cut RelayActivate ACC (accessory) relayON/OFF-
Control the EGR Step PositionControl the No. 1 EGR valve assembly0 to 100%Test is possible when the following conditions are met:
Engine switch is on (IG).
Engine is stopped.
Control the EGR Step Position #2Control the No. 2 EGR valve assembly
Test the Turbo Charger Step MotorActivate the turbocharger sub-assembly (for bank 1)0 to 100%Test is possible when the following conditions are met:
Engine switch is on (IG).
Engine is stopped.
Test the Turbo Charger Step Motor #2Activate the turbocharger sub-assembly (for bank 2)
Activate the DPF Rejuvenate (PM)Perform PM forced regeneration to raise the temperature of the DPF to more than 600°C (1112°F) by adding fuel intermittently using the exhaust fuel addition injector assemblyON/OFF-
Diesel Throttle Target AngleControl the diesel throttle valve (for bank 1)0 to 90%Test is possible when the following conditions are met:
Engine switch on (IG).
Engine is stopped.
Diesel Throttle Target Angle #2Control the diesel throttle valve (for bank 2)
Test the Fuel LeakPressurize the common rail interior and check for fuel leaksStop/Start
Fuel pressure inside common rail set to specified value and engine speed increased to 2000 rpm when ON is selected
Above conditions preserved while test is ON
  • HINT:
  • If this Active Test is performed when the engine is cold, combustion may become unstable. However, this is not a malfunction. It is only necessary to confirm that the pressure rises to the target pressure and that there are no fuel leaks.
Activate the VN Turbo OpenActivate the turbocharger sub-assembly (for bank 1 and bank 2)ON/OFFConfirm that the engine is running.
Activate the EGR Valve CloseActivate the No. 1 and No. 2 EGR valve assemblyON/OFFConfirm that the vehicle is stopped and the engine is idling
Control the Select Cylinder Fuel CutSelected cylinder (cylinder #1 to #8) injector assembly fuel cut#1/#2/#3/#4/#5/#6/#7/#8
ON/OFF		Fuel injection is stopped while the test is ON.
Confirm that the vehicle is stopped and the engine is idling.
If the running condition of the engine does not worsen even though injection of the designated cylinder is stopped, the cylinder can be determined to be malfunctioning.
Control the ALL Cylinders Fuel CutInjector fuel cut for all cylindersON/OFFFuel injection stops in all cylinders.
Check the Cylinder Compression*Check the cylinder compression pressureON/OFFFuel injection stops in all cylinders.
  • HINT:
  • *: When cranking the engine, the Active Test measures the speed of each cylinder. In this Active Test, the fuel of all cylinders is cut when the engine is cranked for approximately 10 seconds.

At this time, the speed of each cylinder is measured. If the speed of one cylinder is more than the other cylinders, it can be determined that the compression pressure of that cylinder is lower than the other cylinders.


Warm up the engine.
Turn the engine switch off.
Connect the GTS to the DLC3.
Turn the engine switch on (IG) and turn the GTS on.
Enter the following menus: Engine and ECT / Active Test / Check the Cylinder Compression.
  • HINT:
  • If the results are not displayed normally, select the display items from the Data List before performing the Active Test. Enter the following menus: Engine and ECT / Data List / Compression / Engine Speed of Cyl #1, Engine Speed of Cyl #2, Engine Speed of Cyl #3, Engine Speed of Cyl #4, Engine Speed of Cyl #5, Engine Speed of Cyl #6, Engine Speed of Cyl #7, Engine Speed of Cyl #8 and Av Engine Speed of All Cyl.
Push the snapshot button to turn the snapshot function on.
  • HINT:
  • Using the snapshot function, data can be recorded during the Active Test.
While the engine is not running, press the RIGHT or LEFT button to change Check the Cylinder Compression to ON.
  • HINT:
  • After performing the above procedure, the "Check the Cylinder Compression" Active Test will start. Fuel injection for all cylinders is prohibited and the engine speed measurement of each cylinder enters standby mode.
Crank the engine for about 10 seconds.
  • HINT:
  • Continue to crank the engine until the values change from the default value (51199 rpm).
Monitor the engine speed (Engine Speed of Cyl #1 to #8, Av Engine Speed of All Cyl) displayed on the GTS.
  • HINT:
  • At first, the Tester Display will show the engine speed measurement of each cylinder to be extremely high. After approximately 10 seconds of engine cranking, the engine speed measurement of each cylinder will change to the actual engine speed.
  • NOTICE:
After the "Check the Cylinder Compression" Active Test is turned on, it will automatically turn off after 255 seconds.
When the "Check the Cylinder Compression" test is off and the engine is cranked, the engine will start.
If the "Check the Cylinder Compression" test needs to be performed after it is turned on and performed once, press "EXIT" to return to the Active Test menu screen. Then perform the "Check the Cylinder Compression" test again.
Use a fully-charged battery.
Stop cranking the engine, and then change "Check the Cylinder Compression" to OFF after the engine stops.
  • NOTICE:
  • If the Active Test is changed to OFF while the engine is being cranked, the engine will start.
Push the snapshot button to turn the snapshot function off.
Select "Stored Data" on the Techstream screen, select the recorded data and display the data as a graph.
  • HINT:
  • If the data is not displayed as a graph, the change of the values cannot be observed.
Check the change in engine speed values.
  • HINT:
  • As the data values of the Active Test return to their default values when cranking is stopped, the engine speed value of each cylinder cannot be observed. Therefore, it is necessary to use the data recorded with the snapshot function to check the engine speed values recorded during cranking.
SYSTEM CHECK

Activate the Pressure Discharge Valve Check

  • HINT:
This is the procedure for troubleshooting fuel pressure control malfunctions and combustion problems.
Malfunctions can be determined by checking the fuel pressure when performing a fuel cut and operating the pressure discharge valve with the GTS.
During "Pressure Discharge Valve Check", the GTS measures the fuel pressure while the engine is running, after the engine is stopped, and after the pressure discharge valve operates.

Connect the GTS to the DLC3.

Turn the engine switch on (IG).

Ecd System (W/ Dpf) - Data List / Active Test. 1VD-FTV ENGINE CONTROL. Land Cruiser URJ200 URJ202 GRJ200 VDJ200

Turn the GTS on.

  • NOTICE:
  • Confirm the following conditions:
Engine is idling.
Vehicle is stopped.
Fuel pressure is not extremely high (below 100000 kPa).
Fuel pressure is not extremely low (higher than 26000 kPa).
Fuel pressure sensor is normal.
Battery voltage is higher than 8 V.
  • HINT:
  • When the common rail pressure is unstable, the fuel pressure may decrease to a level where the test cannot be performed. In this situation, wait until the common rail pressure meets the test condition, and then perform the test.

Enter the following menus: Engine and ECT / Utility / Pressure Discharge Valve Check.

Ecd System (W/ Dpf) - Data List / Active Test. 1VD-FTV ENGINE CONTROL. Land Cruiser URJ200 URJ202 GRJ200 VDJ200

Press "Next".

Ecd System (W/ Dpf) - Data List / Active Test. 1VD-FTV ENGINE CONTROL. Land Cruiser URJ200 URJ202 GRJ200 VDJ200

Press "Next" again to proceed.

Ecd System (W/ Dpf) - Data List / Active Test. 1VD-FTV ENGINE CONTROL. Land Cruiser URJ200 URJ202 GRJ200 VDJ200

Select the check type "Valve Check for Graph".

Press "Next" again to proceed.
Press "Start" again to proceed.

Ecd System (W/ Dpf) - Data List / Active Test. 1VD-FTV ENGINE CONTROL. Land Cruiser URJ200 URJ202 GRJ200 VDJ200

*1: When "Start" is pressed, the pressure discharge valve check begins.
*2: If "Save" is pressed after the pressure discharge valve check, the data recorded during the valve check can be saved.
Ecd System (W/ Dpf) - Data List / Active Test. 1VD-FTV ENGINE CONTROL. Land Cruiser URJ200 URJ202 GRJ200 VDJ200

Select the check type "Close to Open Check" or "Always Closed Check".

  • HINT:
"Close to Open Check" opens the pressure discharge valve after the engine stops.
"Always Closed Check" holds the pressure discharge valve closed during the check.
Press "Next".
Perform troubleshooting based on the measurement results.

Ecd System (W/ Dpf) - Data List / Active Test. 1VD-FTV ENGINE CONTROL. Land Cruiser URJ200 URJ202 GRJ200 VDJ200

  • HINT:
During "Close to Open Check", if there is no large change in fuel pressure when the pressure discharge valve is closed while the engine is running and after the engine is stopped, and if the value is 0 kPa when the pressure discharge valve is open, the system is normal.
Perform "Always Closed Check" if the value is not 0 kPa when the pressure discharge valve is open during "Close to Open Check". If the results are the same as during "Close to Open Check", there is a pressure discharge valve operation malfunction.
If the fuel temperature is high, perform "Pressure Discharge Valve Check" after the fuel has cooled to the outside air temperature.
If a large amount of fuel is leaking, the fuel pressure decreases when the engine is stopped. However, the condition of the pressure discharge valve can still be determined by comparing the measurement results of "Close to Open Check" and "Always Closed Check".

  • Ecd System (W/ Dpf) - Data List / Active Test. 1VD-FTV ENGINE CONTROL. Land Cruiser URJ200 URJ202 GRJ200 VDJ200

1VD-FTV ENGINE CONTROL
Land Cruiser URJ200 URJ202 GRJ200 VDJ200
ECD SYSTEM w/ DPF