ON-BOARD DIAGNOSTIC TEST [SKYACTIV-D 2.2]

id0102s4801000

DTC Reading Procedure

1. Connect the M-MDS to the DLC-2.

2. After the vehicle is identified, select the following items from the initialization screen of the M-MDS.

(1) Select “Self Test”.

(2) Select “Modules”.

(3) Select “PCM”.

3. Then, select the “Retrieve CMDTCs” and perform procedures according to directions on the M-MDS screen.

4. Verify the DTC according to the directions on the M-MDS screen.

• If any DTCs are displayed, perform troubleshooting according to the corresponding DTC inspection.

5. After completion of repairs, clear all DTCs stored in the PCM, while referring to “AFTER REPAIR PROCEDURE”.

Pending Trouble Code Access Procedure

1. Connect the M-MDS to the DLC-2.

2. After the vehicle is identified, select the following items from the initialization screen of the M-MDS.

(1) Select “Self Test”.

(2) Select “Modules”.

(3) Select “PCM”.

3. Then, select the “Retrieve CMDTCs” and perform procedures according to directions on the M-MDS screen.

4. Retrieve the pending trouble codes according to the directions on the M-MDS screen.

Freeze Frame PID Data Access Procedure

1. Connect the M-MDS to the DLC-2.

2. After the vehicle is identified, select the following items from the initialization screen of the M-MDS.

(1) Select “Self Test”.

(2) Select “Modules”.

(3) Select “PCM”.

3. Then, select the “Retrieve CMDTCs” and perform procedures according to directions on the M-MDS screen.

4. Retrieve the freeze frame PID data according to the directions on the M-MDS screen.

Note

• Freeze frame data/snapshot data appears at the top of the help screen when the displayed DTC is selected.

Freeze frame data

• The freeze frame data consists of data for vehicle and engine control system operation conditions when malfunctions in the engine control system are detected and stored in the PCM.

• Freeze frame data is stored at the instant the check engine light illuminates, and only a part of the DTC data is stored.

• For the freeze frame data, if there are several malfunctions in the engine control system, the data for the malfunction which occurred initially is stored. Thereafter, if a misfire or fuel injection control malfunction occurs, data from the misfire or fuel injection control malfunction is written over the initially stored data. However, if the initially stored freeze frame data is a misfire or fuel injection control malfunction, it is not overwritten.

Snapshot data

• The snapshot data stores the currently detected DTC data.

• The recording timing for the freeze frame data/snapshot data differs depending on the number of DTC drive cycles.

― For a DTC with a drive cycle number 1, only the malfunction determination data is recorded.

― For a DTC with a drive cycle number 2, both the malfunction determination and undetermined data is recorded.

Freeze frame data table

Note

• Refer to PID monitor table for confirm the engine control system operation status while the PCM does not store the DTC. (See PCM INSPECTION [SKYACTIV-D 2.2].)

• Freeze frame data items are not displayed, according to detected DTC.

—: Not applicable

Freeze frame data item	Description	Unit	Corresponding PID data monitor item
LOAD	Engine load	%	LOAD
ECT	Engine coolant temperature	°C, °F	ECT
RPM	Engine speed	RPM	RPM
VS	Vehicle speed	KPH, MPH	VSS
TP	Intake shutter valve position	%	ISV_POS
FRP	Fuel pressure at common rail	KPa {MPa}, mBar {Bar}, psi, in H20	FRP
CLRDIST	Mileage after DTC cleared	km, ft, mi	CLR_DIST
BARO	Barometric pressure	KPa {MPa}, mBar {Bar}, psi, in H20	BARO
VPWR	Module supply voltage	V	VPWR
AAT	Ambient air temperature	°C, °F	IAT
APP_D	Accelerator pedal position No.1	%	APP1
APP_E	Accelerator pedal position No.2	%	APP2
TAC_PCT	Intake shutter valve control desired value	%	ISV_DSD
EOT	Engine oil temperature	°C, °F	EOT
FRP_A_CMD	Commanded fuel pressure at common rail	KPa {MPa}, mBar {Bar}, psi, in H20	FRP_DSD
FRP_A	Fuel pressure at common rail	KPa {MPa}, mBar {Bar}, psi, in H20	FRT
FRT_A	Fuel temperature at common rail	°C, °F	FRT
TCA_CINP	Manifold absolute pressure (No.1)	KPa {MPa}, mBar {Bar}, psi, in H20	TCA_CINP
TCB_CINP	Manifold absolute pressure (No.1)	KPa {MPa}, mBar {Bar}, psi, in H20	—
BP_A_CMD	Commanded boost air pressure	KPa {MPa}, mBar {Bar}, psi, in H20	MAP_DSD
BP_A_ACT	Actual measured boost air pressure	KPa {MPa}, mBar {Bar}, psi, in H20	MAP
BP_A_ST	Boost air pressure status	Open Loop/Closed Loop/Fault present	—
EP_1	Exhaust gas pressure sensor No.1 value	KPa {MPa}, mBar {Bar}, psi, in H20	EXHPRES1
CACT12_SUP	Boost air temperature sensor value support	No/Yes	—
CACT11	Boost air temperature sensor value	°C, °F	—
CACT12	Boost air temperature sensor value	°C, °F	CACT12
EGT11	Exhaust gas temperature sensor No.1 value	°C, °F	EXHTEMP
EGT12	Exhaust gas temperature sensor No.2 value	°C, °F	EXHTEMP1
EGT13	Exhaust gas temperature sensor No.3 value	°C, °F	EXHTEMP2
EGT14	Exhaust gas temperature sensor No.4 value	°C, °F	—
DPF1_DP	Exhaust gas pressure sensor No.2 value	KPa {MPa}, mBar {Bar}, psi, in H20	EXHPRESS_DIF

Snapshot data table

Note

• Refer to PID monitor table for confirm the engine control system operation status while the PCM does not store the DTC. (See PCM INSPECTION [SKYACTIV-D 2.2].)

• Snapshot data items are not displayed, according to detected DTC.

—: Not applicable

Snapshot data item	Definition	Data read/use method	Unit	Corresponding PID data monitor item
ALTT_V	Generator output voltage	—	V	ALTT V
MIL	Check engine light illumination status	—	Off/On	MIL
APP1	Accelerator pedal position No.1 voltage	—	V	APP1
APP1	Accelerator pedal position No.1	—	%	APP1
APP2	Accelerator pedal position No.2 voltage	—	V	APP2
APP2	Accelerator pedal position No.2	—	%	APP2
ALT_CUR_DSD	Generator target generated current	—	A	—
BATT_RES	Battery internal resistance (estimated)	—	ohm	BATT_RES
TOTAL_TIME	Total energization time for module	The elapsed time when the start stop unit detected a DTC can be calculated by performing the following procedure. 1. Verify the PID item TOTAL_TIME of the instrument cluster. 2. Verify the snapshot data item TOTAL_TIME. 3. Subtract 2 from 1.	hh:mm:ss	—
TOTAL_DIST	Total distance	The distance traveled when the start stop unit detected a DTC can be calculated by performing the following procedure. 1. Verify the odometer value in the instrument cluster. 2. Verify the snapshot data item TOTAL_DIST. 3. Subtract 2 from 1.	km, ft, mi	—
FUELSYS	Fuel system status	—	OL/CL/OL-Drive/OL-Fault/CL-Fault	—
LOAD_C	Calculated engine load	—	%	LOAD
ECT	Engine coolant temperature	—	°C, °F	ECT
RPM	Engine speed	—	RPM	RPM
VSS	Vehicle speed	—	KPH, MPH	VSS
IAT	Intake air temperature No.1	—	°C, °F	—
MAF	Mass airflow	—	g/sec	—
TP1	Intake shutter valve position	—	%	ISV_POS
EG_RUN_TIME	Time from engine start	—	hh:mm:ss	—
FUEL_PRES	Fuel pressure	—	KPa {MPa}, mBar {Bar}, psi, in H20	FRP
SEGRP_DSD	Target EGR valve position	—	%	—
EVAPCP	Purge solenoid valve controlled value	—	%	—
FLI	Fuel level in fuel tank	—	%	—
CLR_CNT	Number of warm-up cycle after DTC cleared	—	—	—
CLR_DIST	Mileage after DTC cleared	—	km, ft, mi	CLR_DIST
FTP	Fuel tank pressure	—	KPa {MPa}, mBar {Bar}, psi, in H20	—
BARO	Barometric pressure	—	KPa {MPa}, mBar {Bar}, psi, in H20	BARO
CATT11_DSD	Estimated catalytic converter temperature	—	°C, °F	—
VPWR	Module supply voltage	—	V	VPWR
EQ_RAT11_DSD	Target equivalence ratio (lambda)	—	—	—
TP_REL	Relative throttle position	—	%	—
AAT	Ambient air temperature	—	°C, °F	IAT
TP2	Throttle valve position No.2	—	%	—
ETC_DSD	Intake shutter valve control desired value	—	%	ISV_DSD
FUEL_TYP	Type of fuel currently being utilized by the vehicle	—	NONE/Gas/METH/ETH/DSL/ELEC	—
SHRTFT12	Short term fuel trim (HO2S)	—	%	—
LONGFT12	Long term fuel trim (HO2S)	—	%	—
FRP	Fuel pressure at common rail (absolute)	—	KPa {MPa}, mBar {Bar}, psi, in H20	FRP
APP_R	Relative accelerator pedal position	—	%	—
EOT	Engine oil temperature	—	°C, °F	EOT
FUEL_TIMING	Main fuel injection timing related to top dead center	—	°(deg)	—
FUEL_RATE	Percentage of fuel consumption	—	l/min	—
TQ_DD	Engine torque requested by driver	—	%	—
TQ_ACT	Actual engine torque value	—	%	—
MAF_A	MAF sensor value	—	g/sec	MAF
ECT1_SUP	Engine coolant temperature No.1 support	—	No/Yes	—
ECT2_SUP	Engine coolant temperature No.2 support	—	No/Yes	—
ECT1	Engine coolant temperature No.1	—	°C, °F	—
ECT2	Engine coolant temperature No.2	—	°C, °F	—
IAT11	Intake air temperature No.1 value	—	°C, °F	—
IAT12	Intake air temperature No.2 value	—	°C, °F	—
IAT13	Intake air temperature No.3 value	—	°C, °F	IAT13
EGRP	EGR valve position	—	%	—
EGRP_ACT	EGR valve actual opening angle	—	%	EGRP_ACT
EGR_ERR	Percentage of abnormal EGR	—	%	—
LPEGRP	Low pressure EGR valve position	—	%	—
LPEGRP_ACT	Low pressure EGR valve actual opening angle	—	%	—
LPEGR_ERR	Percentage of abnormal low pressure side EGR	—	%	—
EGRT11	Exhaust gas recirculation temperature	—	°C, °F	—
EGRT12	Low pressure side exhaust gas recirculation temperature	—	°C, °F	—
TAC_A_CMD	Commanded throttle valve actuator control	—	%	—
TP_A_REL	Relative throttle valve position	—	%	—
FRP_A_CMD	Commanded fuel pressure at common rail	—	KPa {MPa}, mBar {Bar}, psi, in H20	FRP_DSD
FRP_A	Fuel pressure at common rail	—	KPa {MPa}, mBar {Bar}, psi, in H20	—
FRT	Fuel temperature at common rail	—	°C, °F	FRT
TCA_CINP	Manifold absolute pressure No.1 value	—	KPa {MPa}, mBar {Bar}, psi, in H20	TCA_CINP
TCB_CINP	Manifold absolute pressure No.1 value	—	KPa {MPa}, mBar {Bar}, psi, in H20	—
BP_A_CMD	Commanded manifold absolute pressure No.2	—	KPa {MPa}, mBar {Bar}, psi, in H20	MAP_DSD
BP_A_ACT	Manifold absolute pressure No.2 value	—	KPa {MPa}, mBar {Bar}, psi, in H20	MAP
BP_A_ST	Manifold absolute pressure No.2 control status	—	Open Loop/Closed Loop/Fault present	—
REGVP_DSD	Regulating valve position desired value	—	%	REGVP_DSD
REGRP	Regulating valve position	—	%	REGVP
EP_1	Exhaust gas pressure sensor No.1 value	—	KPa {MPa}, mBar {Bar}, psi, in H20	EXHPRES1
CACT11	Boost air temperature sensor No.1 value	—	°C, °F	—
CACT12	Boost air temperature sensor value	—	°C, °F	CACT12
EXHTEMP1	Exhaust gas temperature sensor No.1 value	—	°C, °F	EXHTEMP
EXHTEMP2	Exhaust gas temperature sensor No.2 value	—	°C, °F	EXHTEMP1
EXHTEMP3	Exhaust gas temperature sensor No.3 value	—	°C, °F	EXHTEMP2
EXHPRESS_DIF	Exhaust gas pressure sensor No.2 value	—	KPa {MPa}, mBar {Bar}, psi, in H20	EXHPRESS_DIF
NOX_ADS_DESULF	Desulfuration condition of NOx adsorbent	—	No/Yes	—
NOX_ADS_REGEN	Regeneration condition of NOx adsorbent	—	No/Yes	—
DPF_REGN_TYP	Diesel particulate filter regeneration type	—	Passive/Active	—
DPF_REGN_STAT	Diesel particulate filter regeneration condition	—	No/Yes	—
DPF_REGEN_PCT	Specified value for performing diesel particulate filter regeneration	—	%	—
DPF_REGN_AVGD	Average of drive distance from previous diesel particulate filter regeneration to next diesel particulate filter regeneration	—	km, ft, mi	—

On-Board System Readiness Tests Access Procedure

1. Connect the M-MDS to the DLC-2.

2. After the vehicle is identified, select the following items from the initialization screen of the M-MDS.

(1) Select “Powertrain”.

(2) Select “OBD Test Modes”.

(3) Select “Mode 1 Powertrain Data”.

(4) Select “PCM”.

3. Then, select the “***SUP” and “**EVAL” PIDs in the PID selection screen.

4. Monitor those PIDs and check it system monitor is completed.

Note

• If the on-board system readiness tests are not completed the PCM stores DTC P1000.

PID/DATA Monitor and Record Procedure

Note

• The PID data screen function is used for monitoring the calculated value of input/output signals in the module. Therefore, if the monitored value of the output parts is not within specification, it is necessary to inspect the monitored value of input parts corresponding to the applicable output part control. In addition, because the system does not display an output part malfunction as an abnormality in the monitored value, it is necessary to inspect the output parts individually.

• When detecting DTCs, PIDs related to a malfunctioning system may not display even if the module is normal. Therefore, if a PID is not displayed, it is necessary to verify the DTC, perform malfunction diagnosis of the DTC that was detected, and do repairs.

1. Connect the M-MDS to the DLC-2.

2. After the vehicle is identified, select the following items from the initialization screen of the M-MDS.

(1) Select “DataLogger”.

(2) Select “Modules”.

(3) Select “PCM”.

3. Select the applicable PID from the PID table.

4. Verify the PID data according to the detections on the screen.

Diagnostic Monitoring Test Results Access Procedure

1. Connect the M-MDS to the DLC-2.

2. After the vehicle is identified, select the following items from the initialization screen of the M-MDS.

(1) Select “Powertrain”.

(2) Select “OBD Test Modes”.

(3) Select “Mode 6 On-Board Test Results”.

3. Verify the diagnostic monitoring test result according to the directions on the M-MDS screen.

Active Command Modes Procedure

1. Connect the M-MDS to the DLC-2.

2. After the vehicle is identified, select the following items from the initialization screen of the M-MDS.

(1) Select “DataLogger”.

(2) Select “Modules”.

(3) Select “PCM”.

3. Select the simulation items from the PID table.

4. Using the active command modes function, inspect the operations for each parts.

• If the operation of output parts cannot be verified after the active command mode inspection is performed, this could indicate the possibility of an open or short circuit, sticking, or operation malfunction in the output parts.