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SGCM DTC

Component / System Fault Code Monitor Strategy Description Malfunction Criteria Threshold Value Secondary Parameters Enable Condition Monitoring Time Length MIL Illum.
12V voltage network sensor 1/ sensor 2 P0563 - System Voltage High This monitor strategy checks if there is a 12V Voltage Sensor 1 circuit high fault. 12V Network SGCM sensor 1 29.5 [V] NA NA NA 0, 1[s] continuous 2 DCY
P0562 - System Voltage Low This monitor strategy checks if there is a 12V Voltage Sensor 1 circuit low or open circuit fault. 12V Network SGCM sensor 1 1.5 [V] 12V Network SGCM sensor 2 4 [V] 0, 1[s] continuous 2 DCY
P0563 - System Voltage High This monitor strategy checks if there is a 12V Voltage Sensor 1 out of range high 12V Network SGCM sensor 1 28 [V] NA NA NA 0, 2[s] continuous 2 DCY
P0562 - System Voltage Low This monitor strategy checks if there is a 12V Voltage Sensor 1 out of range low fault 12V Network SGCM sensor 1 3 [V] 12V Network SGCM sensor 2 4 [V] 0, 2[s] continuous 2 DCY
P0643 - Sensor Reference Voltage "A" Circuit High This monitor strategy checks if there is a 12V Voltage Sensor 2 circuit high fault. 12V Network SGCM sensor 2 29.5 [V] NA NA NA 0, 1[s] continuous 2 DCY
P0642 - Sensor Reference Voltage "A" Circuit Low This monitor strategy checks if there is a 12V Voltage Sensor 2 circuit low or open circuit fault. 12V Network SGCM sensor 2 1.5 [V] 12V Network SGCM sensor 1 4 [V] 0, 1[s] continuous 2 DCY
P0643 - Sensor Reference Voltage "A" Circuit High This monitor strategy checks if there is a 12V Voltage Sensor 2 out of range high 12V Network SGCM sensor 2 28 [V] NA NA NA 0, 2[s] continuous 2 DCY
P0642 - Sensor Reference Voltage "A" Circuit Low This monitor strategy checks if there is a 12V Voltage Sensor 2 out of range low fault 12V Network SGCM sensor 2 3 [V] 12V Network SGCM sensor 1 4 [V] 0, 2[s] continuous 2 DCY
P0560 - System Voltage This monitor strategy checks the 12V Voltage Sensosr signals rationality abs (12V Network SGCM sensor 1 - 12V Network SGCM sensor 2) 1 [V] NA NA NA 0, 3[s] continuous 2 DCY
Mid voltage network sensor 1/ sensor 2 P063D - Ignition "H" Control Signal Circuit/Open This monitor strategy checks if there is a Mid voltage network sensor 1 circuit high fault. Mid voltage network sensor 1 75 [V] NA NA NA 0, 05[s] continuous Immediately
P063C - Ignition "G" Control Signal Circuit High This monitor strategy checks if there is a Mid voltage network sensor 1 circuit low or open circuit fault. Mid voltage network sensor 1 1 [V] Mid voltage network sensor 2 15 [V] 0, 05[s] continuous Immediately
P063D - Ignition "H" Control Signal Circuit/Open This monitor strategy checks if there is a Mid voltage network sensor 1 out of range high fault. Mid voltage network sensor 1 60.9 [V] NA NA NA 0, 075[s] continuous Immediately
P063C - Ignition "G" Control Signal Circuit High This monitor strategy checks if there is a Mid voltage network sensor 1 out of range low fault. Mid voltage network sensor 1 10 [V] Mid voltage network sensor 2 15 [V] 0, 075[s] continuous Immediately
P2CC4 - Generator Voltage Sense Circuit "B" High This monitor strategy checks if there is a Mid voltage network sensor 2 circuit high fault. Mid voltage network sensor 2 75 [V] NA Mid voltage network sensor 1 NA NA 0, 05[s] continuous Immediately
P2CC3 - Generator Voltage Sense Circuit "B" Low This monitor strategy checks if there is a Mid voltage network sensor 2 circuit low or open circuit fault Mid voltage network sensor 2 1 [V] 15 [V] 0, 05[s] continuous Immediately
P2CC4 - Generator Voltage Sense Circuit "B" High This monitor strategy checks if there is a Mid voltage network sensor 2 out of range high fault. Mid voltage network sensor 2 60.9 [V] NA NA NA 0, 075[s] continuous Immediately
P2CC3 - Generator Voltage Sense Circuit "B" Low This monitor strategy checks if there is a Mid voltage network sensor 2 out of range low fault. Mid voltage network sensor 2 10 [V] Mid voltage network sensor 1 15 [V] 0, 075[s] continuous Immediately
P063B - Ignition "G" Control Signal Circuit Low This monitor strategy checks the Mid voltage network sensors signals rationality by crosscheck of Mid voltage network sensor 1 and Mid voltage network sensor 2. abs (Mid voltage network sensor 1 - Mid voltage network sensor 2) 2.5 [V] NA NA NA 0, 1[s] continuous Immediately
Buck Converter sensor 1/ sensor 2 P0651 - Sensor Reference Voltage "B" Circuit/Open This monitor strategy checks if there is a Buck Converter Voltage Sensor 1 circuit high fault. Buck Converter Voltage Sensor 1 17.2 [V] NA NA NA 0, 1[s] continuous Immediately
P0652 - Sensor Reference Voltage "B" Circuit Low This monitor strategy checks if there is a Buck Converter Voltage Sensor 1 circuit low or open circuit fault. When the Buck converter is activated, Buck Conerter = ON Buck Converter Voltage Sensor 1 1.5 [V] Buck Enable = ON - 0, 1[s] continuous Immediately
P0651 - Sensor Reference Voltage "B" Circuit/Open This monitor strategy checks if there is a Buck Converter Voltage Sensor 1 out of range high fault. Buck Converter Voltage Sensor 1 15.3 [V] NA NA NA 0, 2[s] continuous Immediately
P0652 - Sensor Reference Voltage "B" Circuit Low This monitor strategy checks if there is a Buck Converter Voltage Sensor 1 out of range low fault. When the Buck converter is activated, Buck Conerter = ON Buck Converter Voltage Sensor 1 13.4 [V] Buck Enable = ON - 0, 2[s] continuous Immediately
P0699 - Sensor Reference Voltage "C" Circuit High This monitor strategy checks if there is a Buck Converter Voltage Sensor 2 circuit high fault. Buck Converter Voltage Sensor 2 17.2 [V] NA NA NA 0, 1[s] continuous Immediately
P0698 - Sensor Reference Voltage "C" Circuit Low This monitor strategy checks if there is a Buck Converter Voltage Sensor 2 circuit low or open circuit fault. When the Buck converter is activated, Buck Conerter = ON Buck Converter Voltage Sensor 2 1.5 [V] Buck Enable = ON - 0, 1[s] continuous Immediately
P0699 - Sensor Reference Voltage "C" Circuit High This monitor strategy checks if there is a Buck Converter Voltage Sensor 2 out of range high fault. Buck Converter Voltage Sensor 2 15.3 [V] NA NA NA 0, 2[s] continuous Immediately
P0698 - Sensor Reference Voltage "C" Circuit Low This monitor strategy checks if there is a Buck Converter Voltage Sensor 2 out of range low fault. When the Buck converter is activated, Buck Conerter = ON Buck Converter Voltage Sensor 2 13.4 [V] Buck Enable = ON - 0, 2[s] continuous Immediately
P06A6 - Sensor Reference Voltage "A" Circuit Range/Performance This monitor strategy checks the Buck Converter Voltage Sensors signals rationality by crosscheck of Buck Converter Voltage Sensor1 and Buck Converter Voltage Sensor2. abs (Buck Converter Voltage Sensor 1 - Buck Converter Voltage Sensor 2) 1 [V] NA NA NA 0, 3[s] continuous Immediately
Phase current sensors Sensor Iu Sensor Iv Sensor Iw Sensor Ix Sensor Iy Sensor Iz P0E03 - Generator Phase U Current Sensor Circuit High This monitor strategy checks if there is a Phase U Current Sensor circuit high fault. Phase Current Sensor Iu 585 [A] NA NA NA 0, 05[s] continuous Immediately
P0E02 - Generator Phase U Current Sensor Circuit Low This monitor strategy checks if there is a Phase U Current Sensor circuit low fault. Phase Current Sensor Iu -561 [A] NA NA NA 0, 2[ms] continuous Immediately
P2D9B - Starter/Generator Phase U Current Circuit Intermittent/Erratic This monitor strategy checks if there is a Phase U Current Sensor open circuit fault. Phase Current Sensor Iu 535 [A] NA NA NA 0, 075[s] continuous Immediately
P0A71 - Generator Phase U Current High This monitor strategy checks if there is a Phase U Current Sensor out of range high fault. Phase Current Sensor Iu For the Debounce time 450 = 0.2 [A] [ms] NA NA NA 3 times continuous Immediately
P0A70 - Generator Phase U Current Low This monitor strategy checks if there is a Phase U Current Sensor out of range low fault. Phase Current Sensor Iu For the Debounce time -450 = 0.2 [A] [ms] NA NA NA 3 times continuous Immediately
P0E00 - Generator Phase U Current Sensor Circuit This monitor strategy checks if there is a Phase U Current Sensor offset fault. abs (Phase Current Sensor Iu) 15 [A] SGCM Mode Neutral Diag test NA 0 [s] Once Immediately
P0E00 - Generator Phase U Current Sensor Circuit This monitor strategy checks if there is a Phase U Current Sensor offset fault under dynamic abs (Offset Phase Current Sensor Iu) 25 [A] SGCM Speed AND SGCM Speed > 1800 < 5000 [RPM] [RPM] 0, 25[s] continuous Immediately
P0E01 - Generator Phase U Current Sensor Circuit Range/Performance This monitor strategy checks if there is a Phase U Current Sensor rationality high fault. The monitor uses the following median : Median Amplitude UVW. The median is calculated with the phase U, V and W signals amplitude. Amplitude (Phase Current Sensor Iu) - Median Amplitude UVW 60 [A] 0, 2 x Median Amplitude UVW AND SGCM Speed AND SGCM Speed AND SGCM Mode < 60 > 1800 < 5000 Neutral Diag Test [A] [RPM] [RPM] - 0, 25[s] continuous Immediately
120 [A] 0, 2 x Median Amplitude UVW AND SGCM Speed AND SGCM Speed AND SGCM Mode 60 > 1800 < 5000 Neutral Diag Test [A] [RPM] [RPM] -
P0E01 - Generator Phase U Current Sensor Circuit Range/Performance This monitor strategy checks if there is a Phase U Current Sensor rationality low fault. The monitor uses the following median : Median Amplitude UVW. The median is calculated with the phase U, V and W signals amplitude. Median Amplitude UVW - Amplitude (Phase Current Sensor Iu) 60 [A] 0, 2 x Median Amplitude UVW AND SGCM Speed AND SGCM Speed AND SGCM Mode < 60 > 1800 < 5000 Neutral Diag Test [A] [RPM] [RPM] - 0, 25[s] continuous Immediately
120 [A] 0, 2 x Median Amplitude UVW AND SGCM Speed AND SGCM Speed AND SGCM Mode 60 > 1800 < 5000 Neutral Diag Test [A] [RPM] [RPM] -
  P0E07 - Generator Phase V Current Sensor Circuit High This monitor strategy checks if there is a Phase V Current Sensor circuit high fault. Phase Current Sensor Iv 585 [A] NA NA NA 0, 05[s] continuous Immediately
P0E06 - Generator Phase V Current Sensor Circuit Low This monitor strategy checks if there is a Phase V Current Sensor circuit low fault. Phase Current Sensor Iv -561 [A] NA NA NA 0, 2[ms] continuous Immediately
P2D9C - Starter/Generator Phase V Current Circuit Intermittent/Erratic This monitor strategy checks if there is a Phase V Current Sensor open circuit fault. Phase Current Sensor Iv 535 [A] NA NA NA 0, 075[s] continuous Immediately
P0A74 - Generator Phase V Current High This monitor strategy checks if there is a Phase V Current Sensor out of range high fault. Phase Current Sensor Iv For the Debounce time 450 = 0.2 [A] [ms] NA NA NA 3 times continuous Immediately
P0A73 - Generator Phase V Current Low This monitor strategy checks if there is a Phase V Current Sensor out of range low fault. Phase Current Sensor Iv For the Debounce time -450 = 0.2 [A] [ms] NA NA NA 3 times continuous Immediately
P0E04 - Generator Phase V Current Sensor Circuit This monitor strategy checks if there is a Phase V Current Sensor offset fault. abs (Phase Current Sensor Iv) 15 [A] SGCM Mode Neutral Diag test NA 0 [s] Once per powerup Immediately
P0E04 - Generator Phase V Current Sensor Circuit This monitor strategy checks if there is a Phase V Current Sensor offset fault under dynamic abs (Offset Phase Current Sensor Iv) 25 [A] SGCM Speed AND SGCM Speed > 1800 < 5000 [RPM] [RPM] 0, 25[s] continuous Immediately
P0E05 - Generator Phase V Current Sensor Circuit Range/Performance This monitor strategy checks if there is a Phase V Current Sensor rationality high fault. The monitor uses the following median : Median Amplitude UVW. The median is calculated with the phase U, V and W signals amplitude. Amplitude (Phase Current Sensor Iv) - Median Amplitude UVW 60 [A] 0, 2 x Median Amplitude UVW AND SGCM Speed AND SGCM Speed AND SGCM Mode < 60 > 1800 < 5000 Neutral Diag Test [A] [RPM] [RPM] - 0, 25[s] continuous Immediately
120 [A] 0, 2 x Median Amplitude UVW AND SGCM Speed AND SGCM Speed AND SGCM Mode 60 > 1800 < 5000 Neutral Diag Test [A] [RPM] [RPM] -
P0E05 - Generator Phase V Current Sensor Circuit Range/Performance This monitor strategy checks if there is a Phase V Current Sensor rationality low fault. The monitor uses the following median : Median Amplitude UVW. The median is calculated with the phase U, V and W signals amplitude. Median Amplitude UVW - Amplitude (Phase Current Sensor Iv) 60 [A] 0, 2 x Median Amplitude UVW AND SGCM Speed AND SGCM Speed AND SGCM Mode < 60 > 1800 < 5000 Neutral Diag Test [A] [RPM] [RPM] - 0, 25[s] continuous Immediately
120 [A] 0, 2 x Median Amplitude UVW AND SGCM Speed AND SGCM Speed AND SGCM Mode 60 > 1800 < 5000 Neutral Diag Test [A] [RPM] [RPM] -
P0E0B - Generator Phase W Current Sensor Circuit High This monitor strategy checks if there is a Phase W Current Sensor circuit high fault. Phase Current Sensor Iw 585 [A] NA NA NA 0, 05[s] continuous Immediately
P0E0A - Generator Phase W Current Sensor Circuit Low This monitor strategy checks if there is a Phase W Current Sensor circuit low fault. Phase Current Sensor Iw -561 [A] NA NA NA 0, 2[ms] continuous Immediately
  P2D9D - Starter/Generator Phase W Current Circuit Intermittent/Erratic This monitor strategy checks if there is a Phase W Current Sensor open circuit fault. Phase Current Sensor Iw 535 [A] NA NA NA 0, 075[s] continuous Immediately
P0A77 - Generator Phase W Current High This monitor strategy checks if there is a Phase W Current Sensor out of range high fault. Phase Current Sensor Iw For the Debounce time 450 = 0.2 [A] [ms] NA NA NA 3 times continuous Immediately
P0A76 - Generator Phase W Current Low This monitor strategy checks if there is a Phase W Current Sensor out of range low fault. Phase Current Sensor Iw For the Debounce time -450 = 0.2 [A] [ms] NA NA NA 3 times continuous Immediately
P0E08 - Generator Phase W Current Sensor Circuit This monitor strategy checks if there is a Phase W Current Sensor offset fault. abs (Phase Current Sensor Iw) 15 [A] SGCM Mode Neutral Diag test NA 0 [s] Once per powerup Immediately
P0E08 - Generator Phase W Current Sensor Circuit This monitor strategy checks if there is a Phase W Current Sensor offset fault under dynamic abs (Offset Phase Current Sensor Iw) 25 [A] SGCM Speed AND SGCM Speed > 1800 < 5000 [RPM] [RPM] 0, 25[s] continuous Immediately
P0E09 - Generator Phase W Current Sensor Circuit Range/Performance This monitor strategy checks if there is a Phase W Current Sensor rationality high fault, The monitor uses the following median : Median Amplitude UVW. The median is calculated with the phase U, V and W signals amplitude. Amplitude (Phase Current Sensor Iw) - Median Amplitude UVW 60 [A] 0, 2 x Median Amplitude UVW AND SGCM Speed AND SGCM Speed AND SGCM Mode < 60 > 1800 < 5000 Neutral Diag Test [A] [RPM] [RPM] - 0, 25[s] continuous Immediately
120 [A] 0, 2 x Median Amplitude UVW AND SGCM Speed AND SGCM Speed AND SGCM Mode 60 > 1800 < 5000 Neutral Diag Test [A] [RPM] [RPM] -
P0E09 - Generator Phase W Current Sensor Circuit Range/Performance This monitor strategy checks if there is a Phase W Current Sensor rationality low fault. The monitor uses the following median : Median Amplitude UVW. The median is calculated with the phase U, V and W signals amplitude. Median AmplitudeUVW - Amplitude (Phase Current Sensor Iw) 60 [A] 0, 2 x Median Amplitude UVW AND SGCM Speed AND SGCM Speed AND SGCM Mode < 60 > 1800 < 5000 Neutral Diag Test [A] [RPM] [RPM] - 0, 25[s] continuous Immediately
120 [A] 0, 2 x Median Amplitude UVW AND SGCM Speed AND SGCM Speed AND SGCM Mode 60 > 1800 < 5000 Neutral Diag Test [A] [RPM] [RPM] -
P2D92 - Starter/Generator Phase X Current Sensor Circuit High This monitor strategy checks if there is a Phase X Current Sensor circuit high fault. Phase Current Sensor Ix 585 [A] NA NA NA 0, 05[s] continuous Immediately
P2D95 - Starter/Generator Phase X Current Sensor Circuit Low This monitor strategy checks if there is a Phase X Current Sensor circuit low fault. Phase Current Sensor Ix -561 [A] NA NA NA 0, 2[ms] continuous Immediately
P2D98 - Starter/Generator Phase X Current Circuit Intermittent/Erratic This monitor strategy checks if there is a Phase X Current Sensor open circuit fault. Phase Current Sensor Ix 535 [A] NA NA NA 0, 075[s] continuous Immediately
P0ED6 - Generator Phase X Current High This monitor strategy checks if there is a Phase X Current Sensor out of range high fault. Phase Current Sensor Ix For the Debounce time 450 = 0.2 [A] [ms] NA NA NA 3 times continuous Immediately
  P0ED5 - Generator Phase X Current Low This monitor strategy checks if there is a Phase X Current Sensor out of range low fault. Phase Current Sensor Ix For the Debounce time -450 = 0.2 [A] [ms] NA NA NA 3 times continuous Immediately
P2DC1 - Starter/Generator Phase X Current Sensor Circuit This monitor strategy checks if there is a Phase X Current Sensor offset fault. abs (Phase Current Sensor Ix) 15   SGCM Mode Neutral Diag test NA 0 [s] Once per powerup Immediately
P2DC1 - Starter/Generator Phase X Current Sensor Circuit This monitor strategy checks if there is a Phase X Current Sensor offset fault under dynamic abs (Offset Phase Current Sensor Ix) 25 [A] SGCM Speed AND SGCM Speed > 1800 < 5000 [RPM] [RPM] 0, 25[s] continuous Immediately
P2DC2 - Starter/Generator Phase X Current Sensor Circuit Range/Performance This monitor strategy checks if there is a Phase X Current Sensor rationality high fault. The monitor uses the following median : Median Amplitude XYZ. The median is calculated with the phase X, Y and Z signals amplitude. Amplitude (Phase Current Sensor Ix) - Median Amplitude XYZ 60 [A] 0, 2 x Median Amplitude XYZ AND SGCM Speed AND SGCM Speed AND SGCM Mode < 60 > 1800 < 5000 Neutral Diag Test [A] [RPM] [RPM] - 0, 25[s] continuous Immediately
120 [A] 0, 2 x Median Amplitude XYZ AND SGCM Speed AND SGCM Speed AND SGCM Mode 60 > 1800 < 5000 Neutral Diag Test [A] [RPM] [RPM] -
P2DC2 - Starter/Generator Phase X Current Sensor Circuit Range/Performance This monitor strategy checks if there is a Phase X Current Sensor rationality low fault. The monitor uses the following median : Median Amplitude XYZ. The median is calculated with the phase X, Y and Z signals amplitude. Median Amplitude XYZ - Amplitude (Phase Current Sensor Ix) 60 [A] 0, 2 x Median Amplitude XYZ AND SGCM Speed AND SGCM Speed AND SGCM Mode < 60 > 1800 < 5000 Neutral Diag Test [A] [RPM] [RPM] - 0, 25[s] continuous Immediately
120 [A] 0, 2 x Median Amplitude XYZ AND SGCM Speed AND SGCM Speed AND SGCM Mode 60 > 1800 < 5000 Neutral Diag Test [A] [RPM] [RPM] -
P2D93 - Starter/Generator Phase Y Current Sensor Circuit High This monitor strategy checks if there is a Phase Y Current Sensor circuit high fault. Phase Current Sensor Iy 585 [A] NA NA NA 0, 05[s] continuous Immediately
P2D96 - Starter/Generator Phase Y Current Sensor Circuit Low This monitor strategy checks if there is a Phase Y Current Sensor circuit low fault. Phase Current Sensor Iy -561 [A] NA NA NA 0, 2[ms] continuous Immediately
P2D99 - Starter/Generator Phase Y Current Circuit Intermittent/Erratic This monitor strategy checks if there is a Phase Y Current Sensor open circuit fault. Phase Current Sensor Iy 535 [A] NA NA NA 0, 075[s] continuous Immediately
P0ED9 - Generator Phase Y Current High This monitor strategy checks if there is a Phase Y Current Sensor out of range high fault. Phase Current Sensor Iy For the Debounce time 450 = 0.2 [A] [ms] NA NA NA 3 times continuous Immediately
P0ED8 - Generator Phase Y Current Low This monitor strategy checks if there is a Phase Y Current Sensor out of range low fault. Phase Current Sensor Iy For the Debounce time -450 = 0.2 [A] [ms] NA NA NA 3 times continuous Immediately
P2DC3 - Starter/Generator Phase Y Current Sensor Circuit This monitor strategy checks if there is a Phase Y Current Sensor offset fault. abs (Phase Current Sensor Iy) 15 [A] SGCM Mode Neutral Diag test NA 0 [s] Once per powerup Immediately
  P2DC3 - Starter/Generator Phase Y Current Sensor Circuit This monitor strategy checks if there is a Phase Y Current Sensor offset fault under dynamic abs (Offset Phase Current Sensor Iy) 25 [A] SGCM Speed AND SGCM Speed > 1800 < 5000 [RPM] [RPM] 0, 25[s] continuous Immediately
P2DC4 - Starter/Generator Phase Y Current Sensor Circuit Range/Performance This monitor strategy checks if there is a Phase Y Current Sensor rationality high fault. The monitor uses the following median : Median Amplitude XYZ. The median is calculated with the phase X, Y and Z signals amplitude. Amplitude (Phase Current Sensor Iy) - Median Amplitude XYZ 60 [A] 0, 2 x Median Amplitude XYZ AND SGCM Speed AND SGCM Speed AND SGCM Mode < 60 > 1800 < 5000 Neutral Diag Test [A] [RPM] [RPM] - 0, 25[s] continuous Immediately
120 [A] 0, 2 x Median Amplitude XYZ AND SGCM Speed AND SGCM Speed AND SGCM Mode 60 > 1800 < 5000 Neutral Diag Test [A] [RPM] [RPM] -
P2DC4 - Starter/Generator Phase Y Current Sensor Circuit Range/Performance This monitor strategy checks if there is a Phase Y Current Sensor rationality low fault. The monitor uses the following median : Median Amplitude XYZ. The median is calculated with the phase X, Y and Z signals amplitude. Median Amplitude XYZ - Amplitude (Phase Current Sensor Iy) 60 [A] 0, 2 x Median Amplitude XYZ AND SGCM Speed AND SGCM Speed AND SGCM Mode < 60 > 1800 < 5000 Neutral Diag Test [A] [RPM] [RPM] - 0, 25[s] continuous Immediately
120 [A] 0, 2 x Median Amplitude XYZ AND SGCM Speed AND SGCM Speed AND SGCM Mode 60 > 1800 < 5000 Neutral Diag Test [A] [RPM] [RPM] -
P2D94 - Starter/Generator Phase Z Current Sensor Circuit High This monitor strategy checks if there is a Phase Z Current Sensor circuit high fault. Phase Current Sensor Iz 585 [A] NA NA NA 0, 05[s] continuous Immediately
P2D97 - Starter/Generator Phase Z Current Sensor Circuit Low This monitor strategy checks if there is a Phase Z Current Sensor circuit low fault. Phase Current Sensor Iz -561 [A] NA NA NA 0, 2[ms] continuous Immediately
P2D9A - Starter/Generator Phase Z Current Circuit Intermittent/Erratic This monitor strategy checks if there is a Phase Z Current Sensor open circuit fault. Phase Current Sensor Iz 535 [A] NA NA NA 0, 075[s] continuous Immediately
P0EDC - Generator Phase Z Current High This monitor strategy checks if there is a Phase Z Current Sensor out of range high fault. Phase Current Sensor Iz For the Debounce time 450 = 0.2 [A] [ms] NA NA NA 3 times continuous Immediately
P0EDB - Generator Phase Z Current Low This monitor strategy checks if there is a Phase Z Current Sensor out of range low fault. Phase Current Sensor Iz For the Debounce time -450 = 0.2 [A] [ms] NA NA NA 3 times continuous Immediately
P2DC5 - Starter/Generator Phase Z Current Sensor Circuit This monitor strategy checks if there is a Phase Z Current Sensor offset fault. abs (Phase Current Sensor Iz) 15 [A] SGCM Mode Neutral Diag test NA 0 [s] Once per powerup Immediately
P2DC5 - Starter/Generator Phase Z Current Sensor Circuit This monitor strategy checks if there is a Phase Z Current Sensor offset fault under dynamic abs (Offset Phase Current Sensor Iz) 25 [A] SGCM Speed AND SGCM Speed > 1800 < 5000 [RPM] [RPM] 0, 25[s] continuous Immediately
P2DC6 - Starter/Generator Phase Z Current Sensor Circuit Range/Performance This monitor strategy checks if there is a Phase Z Current Sensor rationality high fault. The monitor uses the following median : Median Amplitude XYZ. The median is calculated with the Amplitude (Phase Current Sensor Iz) - Median Amplitude XYZ 60 [A] 0, 2 x Median Amplitude XYZ AND SGCM Speed AND SGCM Speed AND SGCM Mode < 60 > 1800 < 5000 Neutral Diag Test [A] [RPM] [RPM] - 0, 25[s] continuous Immediately
    phase X, Y and Z signals amplitude.   120 [A] 0, 2 x Median Amplitude XYZ AND SGCM Speed AND SGCM Speed AND SGCM Mode 60 > 1800 < 5000 Neutral Diag Test [A] [RPM] [RPM] -    
P2DC6 - Starter/Generator Phase Z Current Sensor Circuit Range/Performance This monitor strategy checks if there is a Phase Z Current Sensor rationality low fault. The monitor uses the following median : Median Amplitude XYZ. The median is calculated with the phase X, Y and Z signals amplitude. Median Amplitude XYZ - Amplitude (Phase Current Sensor Iz) 60 [A] 0, 2 x Median XYZ AND SGCM Speed AND SGCM Speed AND SGCM Mode < 60 > 1800 < 5000 Neutral Diag Test [A] [RPM] [RPM] - 0, 25[s] continuous Immediately
120 [A] 0, 2 x Median XYZ AND SGCM Speed AND SGCM Speed AND SGCM Mode 60 > 1800 < 5000 Neutral Diag Test [A] [RPM] [RPM] -
P0DFA - Generator Phase U-V-W Current Sensor Correlation This monitor strategy checks if there is a Phase Current Sensor rationality fault on Phase U, Phase V or Phase W. abs (Phase Current sensor Iu + Phase Current sensor Iv + Phase Current sensor Iw) 60 [A] SGCM Speed AND SGCM Speed > 1500 < 15000 [RPM] [RPM] 0, 3[s] continuous Immediately
P0DFA - Generator Phase U-V-W Current Sensor Correlation This monitor strategy checks if there is a Phase Current Sensor rationality fault on Phase X, Phase Y or Phase Z. abs (Phase Current sensor Ix + Phase Current sensor Iy + Phase Current sensor Iz) 60 [A] SGCM Speed AND SGCM Speed > 1500 < 15000 [RPM] [RPM] 0, 3[s] continuous Immediately
Excite current sensor P0A5C - Generator Current Sensor Circuit High This monitor strategy checks if there is a Excitation Current Sensor circuit high fault. Excitation Current Sensor 20 [A] NA NA NA 0, 04 [s] continuous Immediately
P0A5B - Generator Current Sensor Circuit Low This monitor strategy checks if there is an Excitation Current Sensor circuit low fault or open circuit. Excitation Current Sensor -1 [A] NA NA NA 0, 04 [s] continuous Immediately
P0A5C - Generator Current Sensor Circuit High This monitor strategy checks if there is an Excitation Current Sensor out of range high fault. Excitation Current Sensor For the Debounce time > 17 = 0 [A] [ms] NA NA NA 3 times continuous Immediately
P0A5B - Generator Current Sensor Circuit Low This monitor strategy checks if there is an Excitation Current Sensor out of range low fault. Excitation Current Sensor -0, 75 [A] NA NA NA 0, 08 [s] continuous Immediately
P0A5A - Generator Current Sensor Circuit Range/Performance This monitor strategy checks if there is an Excitation Current Sensor offset fault. abs (Excitation Current Sensor) 0.5 [A] SGCM Mode Neutral Diag test NA 0 [s] Once Immediately
P2DC7 - Starter/Generator Excitation Current This monitor strategy checks the Excitation Current Sensor signal rationality. Excitation rationality calculation -1.3 [A] SGCM mode AND Excitation RAT test status AND SGCM speed AND Torque set point requested AND abs (Internal Torque set point) = Torque contol = Not done or Not failed 50 5 5 NA NA [RPM] [Nm] [Nm] 0 [s] Once Immediately
1.8 [A]
Control Board Temperature Sensor P0A38 - Generator Temperature Sensor Circuit Low This monitor strategy checks if there is a PCB Temperature Sensor out of range high fault. Control Board Temperature Sensor 180 [°C] NA NA NA 0, 75[s] continuous Immediately
  P0A39 - Generator Temperature Sensor Circuit High This monitor strategy checks if there is a PCB Temperature Sensor out of range low fault. Control Board Temperature Sensor -45 [°C] NA NA NA 0, 75[s] continuous Immediately
P0A37 - Generator Temperature Sensor Circuit Range/Performance This monitor strategy checks the PCB Temperature and Excite Temperature Sensor signal rationality. abs (Control Board Temperature Sensor - Excitation Temperature Sensor) 22 [K] NA NA NA 1[s] continuous Immediately
P0AF1 - Drive Motor Inverter Temperature Sensor "A" Circuit Intermittent/Erratic This monitoring strategy checks if the Control Board Temperature Sensor delivers an erratic signal abs (Control Board Temperature Sensor Gradient) For the Debounce time 200 = 0 [K/s] [s] NA NA NA 3 times continuous 2 DCY
 
Excitation Bridge temperature Sensor P0A38 - Generator Temperature Sensor Circuit Low This monitor strategy checks if there is a Excitation Temperature Sensor out of range high fault. Excitation Temperature Sensor 180 [°C] NA NA NA 0, 75[s] continuous Immediately
P0A39 - Generator Temperature Sensor Circuit High This monitor strategy checks if there is a Excitation Temperature Sensor out of range low fault. Excitation Temperature Sensor -45 [°C] NA NA NA 0, 75[s] continuous Immediately
P0AF6 - Drive Motor Inverter Temperature Sensor "B" Circuit Intermittent/Erratic This monitoring stategy checks if the Excite Temperature Sensor delivers an erratic signal abs (Excitation Temperature Sensor Gradient) For the Debounce time 200 = 0 [K/s] [s] NA NA NA 3 times continuous 2 DCY
P0A37 - Generator Temperature Sensor Circuit Range/Performance This monitor strategy checks the PCB Temperature and Excite Temperature Sensor signal abs (Control Board Temperature Sensor - Excitation Temperature Sensor) 22 [K] NA NA NA 1[s] continuous Immediately
Power Module 1 Temperature Sensor Power Module 2 Temperature Sensor Power Module 3 Temperature Sensor P0BCE - Generator Inverter Temperature Sensor "A" Circuit Low This monitor strategy checks if there is a Power Module 1 Temperature Sensor out of range high fault. Power Module 1 Temperature Sensor 200 [°C] NA NA NA 0, 75[s] continuous Immediately
P0BCF - Generator Inverter Temperature Sensor "A" Circuit High This monitor strategy checks if there is a Power Module 1 Temperature Sensor out of range low fault. Power Module 1 Temperature Sensor -45 [°C] NA NA NA 0, 75[s] continuous Immediately
P0BCD - Generator Inverter Temperature Sensor "A" Circuit Range/Performance This monitor strategy checks the Power Module 1 Temperature Sensor signal rationality high. The monitor uses the following median : Median PM. The median is calculated with Power Module 1, Power Module 2 and Power Module 3 temperature sensors signals Power Module 1 Temperature Sensor - Median PM 25 [K] NA NA NA 1[s] continuous Immediately
P0BCD - Generator Inverter Temperature Sensor "A" Circuit Range/Performance This monitor strategy checks the Power Module 1 Temperature Sensor signal rationality low. The monitor uses the following median : Median PM. The median is calculated with Power Module 1, Power Module 2 and Power Module 3 temperature sensors signals Median PM - Power Module 1 Temperature Sensor 25 [K] NA NA NA 1[s] continuous Immediately
  P0BCD - Generator Inverter Temperature Sensor "A" Circuit Range/Performance This monitor strategy checks if there is a Power Module 1 Temperature Sensor offset fault. The monitor uses the following median : Median PM. The median is calculated with Power Module 1, Power Module 2 and Power Module 3 temperature sensors signals. abs (Median PM - Power Module 1 Temperature Sensor) 15 [K] Time after KL87 ON = 6s Vehicle standstill time calculation status AND Vehicle standstill time AND Vehicle standstill time AND Vehicle standstill time = 1 OR 2 Fault value 0xFF Init value 0xFE 3600 - - - [min] 1[s] Once 2 DCY
P0BD5 - Drive Motor Inverter Temperature Sensor "C" Circuit Intermittent/Erratic This monitoring strategy checks if the Power Module 1 Temperature Sensor delivers an erratic signal abs (Power Module 1 Temperature Sensor Gradient) For the Debounce time 400 = 0 [K/s] [s] NA NA NA 3 times continuous 2 DCY
P0DF5 - Generator Inverter Temperature Sensor "B" Circuit Low This monitor strategy checks if there is a Power Module 2 Temperature Sensor out of range high fault. Power Module 2 Temperature Sensor 200 [°C] NA NA NA 0, 75[s] continuous Immediately
P0DF6 - Generator Inverter Temperature Sensor "B" Circuit High This monitor strategy checks if there is a Power Module 2 Temperature Sensor out of range low fault. Power Module 2 Temperature Sensor -45 [°C] NA NA NA 0, 75[s] continuous Immediately
P0DF4 - Generator Inverter Temperature Sensor "B" Circuit Range/Performance This monitor strategy checks the Power Module 2 Temperature Sensor signal rationality high. The monitor uses the following median : Median PM. The median is calculated with Power Module 1, Power Module 2 and Power Module 3 temperature sensors signals Power Module 2 Temperature Sensor - Median PM 25 [K] NA NA NA 1[s] continuous Immediately
P0DF4 - Generator Inverter Temperature Sensor "B" Circuit Range/Performance This monitor strategy checks the Power Module 2 Temperature Sensor signal rationality low. The monitor uses the following median : Median PM. The median is calculated with Power Module 1, Power Module 2 and Power Module 3 temperature sensors signals. Median PM - Power Module 2 Temperature Sensor 25 [K] NA NA NA 1[s] continuous Immediately
P0DF4 - Generator Inverter Temperature Sensor "B" Circuit Range/Performance This monitor strategy checks if there is a Power Module 2 Temperature Sensor offset fault. The monitor uses the following median : Median PM. The median is calculated with Power Module 1, Power Module 2 and Power Module 3 temperature sensors signals. abs (Median PM - Power Module 2 Temperature Sensor) 15 [K] Time after KL87 ON = 6s Vehicle standstill time calculation status AND Vehicle standstill time AND Vehicle standstill time AND Vehicle standstill time = 1 OR 2 Fault value 0xFF Init value 0xFE 3600 - - - [min] 1[s] Once 2 DCY
P0BDA - Drive Motor Inverter Temperature Sensor "D" Circuit Intermittent/Erratic This monitoring stategy checks if the Power Module 2 Temperature Sensor delivers an erratic signal abs (Power Module 2 Temperature Sensor Gradient) For the Debounce time 400 = 0 [K/s] [s] NA NA NA 3 times continuous 2 DCY
P0DF8 - Generator Inverter Temperature Sensor "C" Circuit Low This monitor strategy checks if there is a Power Module 3 Temperature Sensor out of range high fault. Power Module 3 Temperature Sensor 200 [°C] NA NA NA 0, 75[s] continuous Immediately
  P0DF9 - Generator Inverter Temperature Sensor "C" Circuit High This monitor strategy checks if there is a Power Module 3 Temperature Sensor out of range low fault. Power Module 3 Temperature Sensor -45 [°C] NA NA NA 0, 75[s] continuous Immediately
P0DF7 - Generator Inverter Temperature Sensor "C" Circuit Range/Performance This monitor strategy checks the Power Module 3 Temperature Sensor signal rationality high. The monitor uses the following median : Median PM. The median is calculated with Power Module 1, Power Module 2 and Power Module 3 temperature Power Module 3 Temperature Sensor - Median PM 25 [K] NA NA NA 1[s] continuous Immediately
P0DF7 - Generator Inverter Temperature Sensor "C" Circuit Range/Performance This monitor strategy checks the Power Module 3 Temperature Sensor signal rationality low. The monitor uses the following median : Median PM. The median is calculated with Power Module 1, Power Module 2 and Power Module 3 temperature Median PM - Power Module 3 Temperature Sensor 25 [K] NA NA NA 1[s] continuous Immediately
P0DF7 - Generator Inverter Temperature Sensor "C" Circuit Range/Performance This monitor strategy checks if there is a Power Module 3 Temperature Sensor offset fault. The monitor uses the following median : Median PM. The median is calculated with Power Module 1, Power Module 2 and Power Module 3 temperature sensors signals. abs (Median PM - Power Module 3 Temperature Sensor) 15 [K] Time after KL87 ON = 6s Vehicle standstill time calculation status AND Vehicle standstill time AND Vehicle standstill time AND Vehicle standstill time = 1 OR 2 Fault value 0xFF Init value 0xFE 3600 - - - [min] 1[s] Once 2 DCY
P0BDF - Drive Motor Inverter Temperature Sensor "E" Circuit Intermittent/Erratic This monitoring stategy checks if the Power Module 3 Temperature Sensor delivers an erratic signal abs (Power Module 3 Temperature Sensor Gradient) For the Debounce time 400 = 0 [K/s] [s] NA NA NA 3 times continuous 2 DCY
Rotor Position Sensor P0A4E - Generator Position Sensor Circuit High This monitoring strategy checks if there is a circuit high fault on Rotor Position Sensor Track 1. Rotor Position Sensor Track 1 4.9 [V] NA NA NA 0, 05 [s] continuous Immediately
P0A4B - Generator Position Sensor Circuit This monitoring strategy checks if there is an open circuit fault on Rotor Position Sensor Track 1. Rotor Position Sensor Track 1 4.7 [V] NA NA NA 0, 075 [s] continuous Immediately
P0A4D - Generator Position Sensor Circuit Low This monitoring strategy checks if there is a circuit low fault on Rotor Position Sensor Track 1. Rotor Position Sensor Track 1 0.2 [V] NA NA NA 0, 05 [s] continuous Immediately
P0A4E - Generator Position Sensor Circuit High This monitoring strategy checks if there is an out of range high fault on Rotor Position Sensor Track 1. Rotor Position Sensor Track 1 For a time 4.6 = 0.1 [V] [ms] NA NA NA 10 events continuous Immediately
P0A4D - Generator Position Sensor Circuit Low This monitoring strategy checks if there is an out of range low fault on Rotor Position Sensor Track 1. Rotor Position Sensor Track 1 For a time 0.5 = 0.1 [V] [ms] NA NA NA 10 events continuous Immediately
P0A4F - Generator Position Sensor Circuit Intermittent This monitoring strategy checks if there is a stuck-at fault on Rotor Position Sensor Track 1 signal. Amplitude (Rotor Position Sensor Track 1) 0.2 [V] SGCM speed AND SGCM speed > 1500 < 15000 [RPM] [RPM] 0, 05 [s] continuous Immediately
  P0A4C - Generator Position Sensor Circuit Range/Performance This monitoring strategy checks if there is a rationality high fault on Rotor Position Sensor Track 1. The monitor uses the following median : Median Amplitude RPS. The median is calculated withs the Track 1, Track 2 and Track 3 RPS Amplitude (Rotor Position Sensor Track 1) - Median Amplitude RPS Max [0.1; 0.3 x Median Amplitude RPS) [V] SGCM speed AND SGCM speed > 1500 < 15000 [RPM] [RPM] 0, 2 [s] continuous Immediately
P0A4C - Generator Position Sensor Circuit Range/Performance This monitoring strategy checks if there is a rationality low fault on Rotor Position Sensor Track 1. The monitor uses the following median : Median Amplitude RPS. The median is calculated with the Track 1, Track 2 and Track 3 RPS Median Amplitude RPS- Amplitude (Rotor Position Sensor Track 1) Max [0.1; 0.3 x Median Amplitude RPS) [V] SGCM speed AND SGCM speed > 1500 < 15000 [RPM] [RPM] 0, 2 [s] continuous Immediately
P0A4F - Generator Position Sensor Circuit Intermittent This monitoring strategy checks if there is an offset on Rotor Position Sensor Track 1. The monitor uses the following median : Median Offset RPS. The median is calculated with the Track 1, Track 2 and Track 3 RPS signals offset abs [ Median Offset RPS - offset (Rotor Position Track 1) ] 0.15 [V] SGCM speed AND SGCM speed > 1500 < 14500 [RPM] [RPM] 0, 25 [s] continuous Immediately
P0C67 - Generator Position Sensor Circuit "A" High This monitoring strategy checks if there is a circuit high fault on Rotor Position Sensor Track 2. Rotor Position Sensor Track 2 4.9 [V] NA NA NA 0, 05 [s] continuous Immediately
P0C64 - Generator Position Sensor Circuit "A" This monitoring strategy checks if there is an open circuit fault on Rotor Position Sensor Track 2. Rotor Position Sensor Track 2 4.7 [V] NA NA NA 0, 075 [s] continuous Immediately
P0C66 - Generator Position Sensor Circuit "A" Low This monitoring strategy checks if there is a circuit low fault on Rotor Position Sensor Track 2. Rotor Position Sensor Track 2 0.2 [V] NA NA NA 0, 05 [s] continuous Immediately
P0C67 - Generator Position Sensor Circuit "A" High This monitoring strategy checks if there is an out of range high fault on Rotor Position Sensor Track 2. Rotor Position Sensor Track 2 For a time 4.6 = 0.1 [V] [ms] NA NA NA 10 events continuous Immediately
P0C66 - Generator Position Sensor Circuit "A" Low This monitoring strategy checks if there is an out of range low fault on Rotor Position Sensor Track 2. Rotor Position Sensor Track 2 For a time 0.5 = 0.1 [V] [ms] NA NA NA 10 events continuous Immediately
P0C68 - Generator Position Sensor Circuit "A" Intermittent/Erratic This monitoring strategy checks if there is a stuck-at fault on Rotor Position Sensor Track 2 signal. Amplitude (Rotor Position Sensor Track 2) 0.2 [V] SGCM speed AND SGCM speed > 1500 < 15000 [RPM] [RPM] 0, 05 [s] continuous Immediately
P0C65 - Generator Position Sensor Circuit "A" Range/Performance This monitoring strategy checks if there is a rationality high fault on Rotor Position Sensor Track 2. The monitor uses the following median : Median Amplitude RPS. The median is calculated with the Track 1, Track 2 and Track 3 RPS signals amplitude Amplitude (Rotor Position Sensor Track 2) - Median Amplitude RPS Max [0.1; 0.3 x Median Amplitude RPS) [V] SGCM speed AND SGCM speed > 1500 < 15000 [RPM] [RPM] 0, 2 [s] continuous Immediately
  P0C65 - Generator Position Sensor Circuit "A" Range/Performance This monitoring strategy checks if there is a rationality low fault on Rotor Position Sensor Track 2. The monitor uses the following median : Median Amplitude RPS. The median is calculated with the Track 1, Track 2 and Track 3 RPS Median Amplitude RPS - Amplitude (Rotor Position Sensor Track 2) Max [0, 1; 0, 3 x Median Amplitude RPS] [V] SGCM speed AND SGCM speed > 1500 < 15000 [RPM] [RPM] 0, 2 [s] continuous Immediately
P0C68 - Generator Position Sensor Circuit "A" Intermittent/Erratic This monitoring strategy checks if there is an offset on Rotor Position Sensor Track 2. The monitor uses the following median : Median Offset RPS. The median is calculated with the Track 1, Track 2 and Track 3 RPS signals offset abs [ Median Offset RPS - offset (Rotor Position Track 2) ] 0.15 [V] SGCM speed AND SGCM speed > 1500 < 14500 [RPM] [RPM] 0, 25 [s] continuous Immediately
P0C6C - Generator Position Sensor Circuit "B" High This monitoring strategy checks if there is a circuit high fault on Rotor Position Sensor Track 3. Rotor Position Sensor Track 3 4.9 [V] NA NA NA 0, 05 [s] continuous Immediately
P0C69 - Generator Position Sensor Circuit "B" This monitoring strategy checks if there is an open circuit fault on Rotor Position Sensor Track 3. Rotor Position Sensor Track 3 4.7 [V] NA NA NA 0, 075 [s] continuous Immediately
P0C6B - Generator Position Sensor Circuit "B" Low This monitoring strategy checks if there is a circuit low fault on Rotor Position Sensor Track 3. Rotor Position Sensor Track 3 0.2 [V] NA NA NA 0, 05 [s] continuous Immediately
P0C6C - Generator Position Sensor Circuit "B" High This monitoring strategy checks if there is an out of range high fault on Rotor Position Sensor Track 3. Rotor Position Sensor Track 3 For a time 4.6 = 0.1 [V] [ms] NA NA NA 10 events continuous Immediately
P0C6B - Generator Position Sensor Circuit "B" Low This monitoring strategy checks if there is an out of range low fault on Rotor Position Sensor Track 3. Rotor Position Sensor Track 3 For a time 0.5 = 0.1 [V] [ms] NA NA NA 10 events continuous Immediately
P0C6D - Generator Position Sensor Circuit "B" Intermittent/Erratic This monitoring strategy checks if there is a stuck-at fault on Rotor Position Sensor Track 3 signal. Amplitude (Rotor Position Sensor Track 3) 0.2 [V] SGCM speed AND SGCM speed > 1500 < 15000 [RPM] [RPM] 0, 05 [s] continuous Immediately
P0C6A - Generator Position Sensor Circuit "B" Range/Performance This monitoring strategy checks if there is a rationality high fault on Rotor Position Sensor Track 3. The monitor uses the following median : Median Amplitude RPS. The median is calculated with the Track 1, Track 2 and Track 3 RPS signals amplitude. Amplitude (Rotor Position Sensor Track 3) - Median Amplitude RPS Max [0.1; 0.3 x Median Amplitude RPS) [V] SGCM speed AND SGCM speed > 1500 < 15000 [RPM] [RPM] 0, 2 [s] continuous Immediately
P0C6A - Generator Position Sensor Circuit "B" Range/Performance This monitoring strategy checks if there is a rationality low fault on Rotor Position Sensor Track 3. The monitor uses the following median : Median Amplitude RPS. The median is calculated with the Track 1, Track 2 and Track 3 RPS signals amplitude. Median Amplitude RPS - Amplitude (Rotor Position Sensor Track 3) Max [0.1; 0.3 x Median Amplitude RPS) [V] SGCM speed AND SGCM speed > 1500 < 15000 [RPM] [RPM] 0, 2 [s] continuous Immediately
  P0C6D - Generator Position Sensor Circuit "B" Intermittent/Erratic This monitoring strategy checks if there is an offset on Rotor Position Sensor Track 3. The monitor uses the following median : Median Offset RPS. The median is calculated with the Track 1, Track 2 and Track 3 RPS signals offset. abs [ Median Offset RPS - offset (Rotor Position Track 3) ] 0.15 [V] SGCM speed AND SGCM speed > 1500 < 14500 [RPM] [RPM] 0, 25 [s] continuous Immediately
Electronic control unit P0606 - Control Module Processor - Control Module Processor This monitor strategy checks if there is any hardware fault inside of the microcontroller. 'internal detection malfunction inside..) hardware mechanism For a debounce time = Failed = 0 - [s] NA NA NA 3 times continuous Immediately
P0606 - Control Module Processor - Control Module Processor This monitor strategy checks if there is a severe fault at safety chip level. hardware mechanism For a debounce time = Failed = 0 - [s] NA NA NA 3 times continuous Immediately
P0606 - Control Module Processor - Control Module Processor This monitor strategy checks if there is a watchdog fault. Communication mechanism between microcontroller and SBC For a debounce time = Failed = 0 - [s] NA NA NA 3 times continuous Immediately
P0606 - Control Module Processor - Control Module Processor This monitor strategy checks if there is any EEPROM fault. Unrecoverable data corruption detection = TRUE [Boolean] NA NA NA 2 times continuous 2 DCY
P0606 - Control Module Processor - Control Module Processor This monitor strategy checks if there is any EEPROM fault on calibration data. calibration data = Corrupted - NA NA NA 0 [s] Once per powerup Immediately
Software L1/L2 monitors P060C - Internal Control Module Main Processor Performance The monitor checks the reference torque consistency between level 1 and level 2. Torque_Request_Level1 OR Torque_Request_Level1 > 2 < Torque_Request_Level2 - 20 [Nm] [Nm] SGCM Mode Torque_Request_Level2 Voltage_ctrl -1 - [Nm] 0, 34 [s] continuous Immediately
< -1 > Torque_Request_Level2 + 20 [Nm] [Nm] SGCM Mode Torque_Request_Level2 Voltage_ctrl 2 - [Nm]
< Torque_Request_Level2 - 20 > Torque_Request_Level2 + 20 [Nm] [Nm] SGCM Mode Torque_Request_Level2 Voltage_ctrl < -1 AND > 2 - [Nm]
P060C - Internal Control Module Main Processor Performance The monitor checks the torque consistency between level 1 and level 2. abs (Torque_Estimated_Level1 - Torque_Safety_High_Speed_Level2) OR abs (Torque_Estimated_Level1 - Torque_Safety_Low_Speed_Level2) OR abs (Torque_Estimated_Level1 - Torque_Safety_High_Speed_Level2) OR abs (Torque_Estimated_Level1 - Torque_Safety_Low_Speed_Level2) > 20 > 20 > 20 [Nm] [Nm] [Nm] SGCM speed AND Valid Rotation Sens Flag SGCM speed SGCM speed < 1500 = TRUE > 1800 > 1500 AND < 1800 [RPM] - [RPM] [RPM] 0, 34 [s] continuous Immediately
  P060C - Internal Control Module Main Processor Performance The monitor checks an unexpected torque when the torque reference is null. abs (Torque_Safety_High_Speed_Level2) OR abs (Torque_Safety_Low_Speed_Level2) OR abs (Torque_Safety_High_Speed_Level2) OR abs (Torque_Safety_Low_Speed_Level2) > 25 > 25 > 25 [Nm] [Nm] [Nm] SGCM Mode AND SGCM speed AND [Abs (Torque_Reference_Level2) OR SGCM Mode] SGCM Mode AND SGCM speed AND [Abs (Torque_Reference_Level2) OR SGCM Mode] SGCM Mode AND SGCM speed AND [Abs (Torque_Reference_Level2) OR SGCM Mode] Voltage_Ctrl < 1500 < 0 Torque_Ctrl Voltage_Ctrl > 1800 < 0 Torque_Ctrl Voltage_Ctrl > 1500 AND < 1800 < 0 Torque_Ctrl - [RPM] [Nm] - - [RPM] [Nm] - - [RPM] [Nm] - 0, 29 [s] continuous Immediately
P060C - Internal Control Module Main Processor Performance The monitor checks the stator voltage consistency between level 1 and level 2. abs (Stator_Voltage_Level1 - Stator_Voltage_Level2) 3 [V] NA NA NA 0, 34 [s] continuous Immediately
P060C - Internal Control Module Main Processor Performance The monitor checks the stator current consistency between level 1 and level 2. abs (Current_Stator_Level1 - Current_Stator_Level2) 40 [A] NA NA NA 0, 34 [s] continuous Immediately
P060C - Internal Control Module Main Processor Performance This monitoring strategy checks Speed calculation consistency between level 1 and level 2 abs (Speed_Level1 - Speed_Level2) 500 [RPM] Angular regulation loop = Ready - 0, 34 [s] continuous Immediately
P060C - Internal Control Module Main Processor Performance This monitor checks whether the Standby Mode works properly. Disable_Excitation_bridge_Driver_Flag AND Disable_Power_bridge_Driver_Flag = False = False NA NA SGCM Mode = Standby - 0, 25 [s] continuous Immediately
P060C - Internal Control Module Main Processor Performance This monitoring strategy checks consistency between FSM and E2E modules SGCM Mode AND E2E module State = Torque_Ctrl OR Voltage_Ctrl = Inactiv NA NA NA NA 0, 29 [s] continuous Immediately
System monitors P0DFC - Generator Position Sensor Not Learned This monitoring strategy checks whether the RPS control loop starts properly after the power up. If the result is PASSED, the flag Angular regulation loop is set to Ready abs (Angular Error Loop) > 15 [°] SGCM Mode After power up - 0, 5 [s] Once Immediately
P0DFC - Generator Position Sensor Not Learned This monitoring strategy checks whether the RPS control loop works properly. abs (Angular Error Loop) > 15 [°] Angular regulation loop = Ready - 0, 2 [s] continuous Immediately
P0DFC - Generator Position Sensor Not Learned This monitoring strategy checks whether the RPS control loop works properly. abs (Angular Error Loop Peak) > 30 [°] Angular regulation loop = Ready - 0, 05 [s] continuous Immediately
P0561 - System Voltage Unstable This monitor strategy monitors a loss on a 12V supply terminal. 12V Network SGCM sensor 1 AND 12V Network SGCM sensor 2 2.25 2.25 [V] [V] NA NA NA 1 [s] continuous 2 DCY
P19F8 - 48-volt vehicle electrical system not available This monitor strategy monitors a loss of either terminal of the 48V supply. Mid voltage network sensor 1 AND Mid voltage network sensor 2 2 2 [V] [V] Middle voltage system active When the mid voltage batery is connected to the network, the Middle voltage system active signal is set to TRUE =TRUE - 15[s] continuous 2 DCY
P0C7B - Generator Inverter Voltage Too High This monitor strategy monitors a functional upper limit on the Mid voltage network. Mid voltage network sensor 1 AND Mid voltage network sensor 2 54.5 54.5 [V] [V] NA NA NA 0, 04[s] continuous 2 DCY
P196E - 48-volt vehicle electrical system Voltage too low This monitor strategy monitors a functional low limit on the Mid voltage network. Mid voltage network sensor 1 AND Mid voltage network sensor 2 For the Debounce time 25.5 25.5 0, 125 [V] [V] [s] SGCM mode or SGCM mode or SGCM mode or SGCM mode = Torque_Ctrl = Voltage_Ctrl = Freerun = Inverter Failure - - - - 3 times continuous 2 DCY
P0A59 - Generator Current Sensor Circuit This monitor strategy checks if the Excitation Current Sensor signal is exceeding a critical upper limit. Excitation Current Sensor 12 [A] NA NA NA 0, 025 [s] continuous Immediately
P0A3E - Generator Inverter Over Temperature This monitor strategy checks if the PCB Temperature Sensor signal is exceeding a critical upper limit. Control Board Temperature Sensor 150 [°] NA NA NA 1, 25[s] continuous 2 DCY
P0A3E - Generator Inverter Over Temperature This monitor strategy checks if the Excitation Temperature Sensor signal is exceeding a critical upper limit. Excitation Bridge temperature Sensor 150 [°] NA NA NA 1, 25[s] continuous 2 DCY
P0A3E - Generator Inverter Over Temperature This monitor strategy checks if the Power Module1 Temperature Sensor signal is exceeding a critical upper limit. Power Module 1 Temperature Sensor 165 [°] NA NA NA 2, 5[s] continuous 2 DCY
P0A3E - Generator Inverter Over Temperature This monitor strategy checks if the Power Module 2 Temperature Sensor signal is exceeding a critical upper limit. Power Module 2 Temperature Sensor 165 [°] NA NA NA 2, 5[s] continuous 2 DCY
P0A3E - Generator Inverter Over Temperature This monitor strategy checks if the Power Module 3 Temperature Sensor signal is exceeding a critical upper limit. Power Module 3 Temperature Sensor 165 [°] NA NA NA 2, 5[s] continuous 2 DCY
P0A3E - Generator Inverter Over Temperature This monitor strategy checks if the DC Link Capacitance Estimated Temperature is exceeding a critical upper limit. Capacitor Estimated Temperature 158 [°] NA NA NA 1 [s] continuous 2 DCY
P0A3B - Generator "A" Over Temperature This monitor strategy checks if the estimated junction temperature is exceeding a critical upper limit. Temperature Junction Estimated 180 [°] NA NA NA 1 [s] continuous 2 DCY
P0A3B - Generator "A" Over Temperature This monitor strategy checks if the estimated leadframe temperature is exceeding a critical upper limit. LeadFrame Estimated Temperature 180 [°] NA NA NA 1 [s] continuous 2 DCY
  P0A3B - Generator "A" Over Temperature This monitor strategy checks if the estimated rotor temperature is exceeding a critical upper limit. Temperature Roror Estimated 190 [°] NA NA NA 1 [s] continuous 2 DCY
P0A3B - Generator "A" Over Temperature This monitor strategy checks if the estimated stator temperature is exceeding a critical upper limit. Temperature Stator Estimated 230 [°] NA NA NA 1 [s] continuous 2 DCY
P0606 - Control Module Processor - Control Module Processor This monitor strategy checks if the SGCM speed is exceeding a critical upper limit. SGCM speed 22000 [RPM] NA NA NA 0, 05 [s] continuous Immediately
P136D - Starter generator Overspeed When the Voltage Mode or Torque Control Mode is requested, this monitor strategy checks if the SGCM speed is exceeding a critical upper limit. SGCM speed 18000 [RPM] SGCM Mode = Torque_Ctrl - 0, 05 [s] continuous Immediately
17000 [RPM] SGCM Mode = Voltage_Ctrl -
P060C - Internal Control Module Main Processor Performance This monitoring strategy checks if there is a reverse SGCM rotation. Reverse Revolution Counter > 4.5 [Rotation] NA NA NA 0 [s] continuous 2 DCY
P0C7B - Generator Inverter Voltage Too High This monitor strategy monitors any transient load dump SGCM system reaction. Mid Voltage network > 57.8 [V] NA NA NA 3 times continuous Immediately
P0A1E - Starter/Generator Control Module This monitor strategy checks if Load dump detection hardware interrupt is well working in SGCM. Hardware interrupt signal = Not activated - SGCM Mode Neutral Diag test NA 0 [s] Once Immediately
P0A1E - Starter/Generator Control Module This monitor strategy monitors the proper functionality of the 48V-12V buck converter. Check done in two steps: - Buck Converter = OFF - Buck Converter = ON [Buck Converter Voltage Sensor 1 AND Buck Converter Voltage Sensor 2] AND [Buck Converter Voltage Sensor 1 AND Buck Converter Voltage Sensor 2] 2 2 9 9 [V] [V] [V] [V] Buck converter Buck converter Buck converter Buck converter = OFF = OFF = ON = ON - - - - 0 [s] Once per powerup Immediately
P0A1E - Starter/Generator Control Module This monitor strategy monitors the proper functionality of the flyback converter. Flyback voltage 9 [V] 12V Network SGCM sensor 1 AND 12V Network SGCM sensor 2 7 7 [V] [V] 0, 3 [s] continuous Immediately
P0A3E - Generator Inverter Over Temperature This monitoring strategy checks if cranking was not properly performed. SGCM Torque For the Debounce time > 45 =50 [Nm] [ms] SGCM Speed < 50 [RPM] 3 times continuous Immediately
P0A3E - Generator Inverter Over Temperature This monitoring strategy detects rotation heaviness of machine SGCM Torque For the Debounce time > 30 =50 [Nm] [ms] SGCM Speed < 800 [RPM] 7, 5 [s] continuous Immediately
P2BA3 - Starter/Generator Mechanical Performance This monitor strategy checks if there is a SGCM brushes wear out. Estimated Rotor Voltage - Calculated Rotor Voltage > Threshold 1 With Threshold 1 = 3 + 1.12 x Excitation Current / [A] Threshold 1 3 Threshold 1 13 [V] [V] [V] [V] NA NA NA 1 [s] continuous Immediately
  P0A23 - Generator Torque Sensor Circuit Range/Performance This monitor checks whether the torque control mode works properly. abs (Torque Request - Torque estimated) > 20 [Nm] NA NA NA 0, 34 [s] continuous 2 DCY
P0A92 - Hybrid Generator Performance This monitoring strategy checks if there is a substantial loss in motor performance. abs (Estimated Electrical Power - Measured Electrical Power) / Measured Electrical Power >30 [%] Torque AND SGCM Speed [6, 100] [1500, 9500] [Nm] [RPM] 3 [s] continuous 2 DCY
P0A92 - Hybrid Generator Performance This monitoring strategy checks if there is a substantial loss in generator performance. abs (Estimated Electrical Power - Measured Electrical Power) / Estimated Electrical Power >30 [%] Torque AND SGCM Speed [-10, -100] [1500, 13000] [Nm] [RPM] 3 [s] continuous 2 DCY
P0607 - Control Module Performance The monitoring strategy checks if duration of actuator test is too long and actuator test has not been finished. Actuator time-out > 0.5 [s] SGCM Mode Neutral Diag Test - 0 [s] Immediately
U1103 - Production mode active This monitoring strategy checks if production mode is still activated above the maximum distance traveled Production mode = Active - Mileage or Distance traveled < 100 [Km] 0 [s] complex Immediately
U3001 - Control Module Improper Shutdown Performance This monitoring strategy checks the non fully completed internal overrun during the shutdown procedure. Sleep state For the Debounce time = 0 or 1 = 0 - [ms] Transition to Wake up or Ignition ON NA Once Immediately
Power module Bridges Power module 1 Power module 2 Power module 3 P0A1E - Starter/Generator Control Module This monitoring strategy checks whether the actuator Power Module 1 is working properly MOSFETs Low side Short circuit test on U, W phases Phase Current Sensor Iu OR Phase Current Sensor Iw OR MOSFETs High side Short circuit test on U, W phases Phase Current Sensor Iu OR Phase Current Sensor Iw OR MOSFETs Low side and High side Open circuit test on U, W phases Phase Current Sensor Iu OR Phase Current Sensor Iw OR Shutoff path test on U, W phases Phase Current Sensor Iu OR 10 10 20 20 10 10 10 [A] [A] [A] [A] [A] [A] [A] SGCM Mode AND Mid Voltage Network Sensor 1 and 2 AND Mid Voltage Network sensor 1 and 2 AND SGCM Speed Neutral Diag Test >26 <52 <400 NA [V] [V] [RPM] 60 [ms] once Immediately
LS MOSFETs Open circuit test on U, W phases Phase Current Sensor Iu OR Phase Current Sensor Iw OR Shutoff path test on U, W phases Phase Current Sensor Iu OR Phase Current Sensor Iw -10 -10 10 10 [A] [A] [A] [A] SGCM Mode AND Mid Voltage Network Sensor 1 and 2 AND Mid Voltage Network Sensor 1 and 2 AND SGCM Speed Neutral Diag Test >26 <52 >500 NA [V] [V] [RPM]
  P0A1E - Starter/Generator Control Module This monitoring strategy checks whether the actuator excitation bridge is working properly. MOSFETs Low side Short circuit test on V, Z phases Phase Current Sensor Iv OR Phase Current Sensor Iz OR MOSFETs High side Short circuit test on V, Z phases Phase Current Sensor Iv OR Phase Current Sensor Iz OR MOSFETs Low side and High side Open circuit test on V, Z phases Phase Current Sensor Iv OR Phase Current Sensor Iz OR Shutoff path test on V, Z phases Phase Current Sensor Iv OR 10 10 20 20 10 10 10 [A] [A] [A] [A] [A] [A] [A] SGCM Mode AND Mid Voltage Network Sensor 1 and 2 AND Mid Voltage Network Sensor 1 and 2 AND SGCM Speed Neutral Diag Test >26 <52 <400 NA [V] [V] [RPM] 60 [ms] once Immediately
Low side MOSFETs Open circuit test on V, Z phases Phase Current Sensor Iv OR Phase Current Sensor Iz OR Shutoff path test on V, Z phases Phase Current Sensor Iv OR -10 -10 10 [A] [A] [A] SGCM Mode AND Mid Voltage Network Sensor 1 and 2 AND Mid Voltage Network Sensor 1 and 2 AND SGCM Speed Neutral Diag Test >26 <52 >500 NA [V] [V] [RPM]
  P0A1E - Starter/Generator Control Module This monitoring strategy checks whether the actuator excitation bridge is working properly. MOSFETs Low side Short circuit test on X, Y phases Phase Current Sensor Ix OR Phase Current Sensor Iy OR MOSFETs High side Short circuit test on X, Y phases Phase Current Sensor Ix OR Phase Current Sensor Iy OR MOSFETs Low side and high side Open circuit test on X, Y phases Phase Current Sensor Ix OR Phase Current Sensor Iy OR Shutoff path test on X, Y phases Phase Current Sensor Ix OR 10 10 20 20 10 10 10 [A] [A] [A] [A] [A] [A] [A] SGCM Mode AND Mid Voltage Network Sensor 1 and 2 AND Mid Voltage Network Sensor 1 and 2 AND SGCM Speed Neutral Diag Test >26 <52 <400 NA [V] [V] [RPM] 60 [ms] once Immediately
Low side MOSFETs Open circuit test on X, Y phases Phase Current Sensor Ix OR Phase Current Sensor Iy OR Shutoff path test on X, Y phases Phase Current Sensor Ix OR Phase Current Sensor Iy -10 -10 10 10 [A] [A] [A] [A] SGCM Mode AND Mid Voltage Network Sensor 1 and 2 AND Mid Voltage Network Sensor 1 and 2 AND SGCM Speed Neutral Diag Test >26 <52 >500 NA [V] [V] [RPM]
Excitation Bridge P0A1E - Starter/Generator Control Module This monitoring strategy checks whether the actuator excitation bridge is working properly. Short circuit on MOSFET Low side Excitation Current Sensor OR Short circuit on MOSFET High side Excitation Current Sensor > 0.8 > 0.8 [A] [A] SGCM Mode AND Mid Voltage Network AND Mid Voltage Network Neutral Diag Test >26 <52 NA [V] [V] 60 [ms] once Immediately
Functional CAN bus U0037 - Vehicle Communication Bus B This monitoring strategy checks if there is a bus off fault at functional CAN. Bus OFF Signal from internal CAN Controller = TRUE [Boolean] 12V Network SGCM sensor 1 AND 12V Network SGCM sensor 1 > 9, 2 < 17, 2 [V] [V] 0, 31 [s] continuous Immediately
U0038 - Vehicle Communication Bus B Performance This monitoring strategy checks if there is a global time out at functional CAN. FCAN Received Message Flag = FALSE [Boolean] FCAN DiagStartTime = TRUE [Boolean] 0, 25 [s] continuous 2 DCY
  U0100 - Lost Communication With ECM/PCM "A" This monitoring strategy checks if the EMG_01 CAN messages are received within the specified monitoring time. EMG_01 Received Message Flag = FALSE [Boolean] Network Management High State = Repeat Message OR Normal Operation Functional OR Normal Operation Stalling Help - 0, 495 [s] continuous 2 DCY
U0401 - Invalid Data Received From ECM/PCM "A" This monitoring strategy checks if the checksum values of the EMG_01 CAN messages are correct. EMG_01 Wrong Checksum Counter 2 - FCAN_BusActivStateSignal = TRUE - 0 [s] continuous Immediately
U0401 - Invalid Data Received From ECM/PCM "A" This monitoring strategy checks if the alive counter consecutive values of the EMG_01 messages are correct. EMG_01 Alive counter (n) - EMG_01 Alive counter (n-1) OR EMG_01 Alive counter (n) - EMG_01 Alive counter (n-1) = 0 > 15 - - Network Management High State = Repeat Message OR Normal Operation Functional OR Normal Operation Stalling Help NA 0, 495 [s] continuous Immediately
U0100 - Lost Communication With ECM/PCM "A" This monitoring strategy checks if the EMG_02 CAN messages are received within the specified monitoring time. EMG_02 Received Message Flag = FALSE [Boolean] Network Management High State = Repeat Message OR Normal Operation Functional OR Normal Operation Stalling Help - 0, 495 [s] continuous 2 DCY
U0401 - Invalid Data Received From ECM/PCM "A" This monitoring strategy checks if the checksum values of the EMG_02 CAN messages are correct. EMG_02 Wrong Checksum Counter 2 - FCAN_BusActivStateSignal = TRUE [Boolean] 0 [s] continuous Immediately
U0401 - Invalid Data Received From ECM/PCM "A" This monitoring strategy checks if the alive counter consecutive values of the EMG_02 messages are correct. EMG_02 Alive counter (n) - EMG_02 Alive counter (n-1) OR EMG_01 Alive counter (n) - EMG_01 Alive counter (n-1) = 0 > 15 - - Network Management High State = Repeat Message OR Normal Operation Functional OR Normal Operation Stalling Help - 0, 495 [s] continuous Immediately
U0100 - Lost Communication With ECM/PCM "A" This monitoring strategy checks if the EMG_03 CAN messages are received within the specified monitoring time. EMG_03 Received Message Flag = FALSE [Boolean] FCAN DiagStartTime = TRUE [Boolean] 0, 7 [s] continuous 2 DCY
U0100 - Lost Communication With ECM/PCM "A" This monitoring strategy checks if the EMG_04 CAN messages are received within the specified monitoring time. EMG_04 Received Message Flag = FALSE [Boolean] FCAN DiagStartTime = TRUE [Boolean] 1, 3 [s] continuous 2 DCY
Diagnostic CAN bus U0001 - High Speed CAN Communication Bus This monitoring strategy checks if there is a bus off fault at diagnostic CAN. Bus OFF Signal from internal CAN Controller = TRUE [Boolean] 12V Network SGCM sensor 1 AND 12V Network SGCM sensor 1 > 9, 2 < 17, 2 [V] [V] 0, 31 [s] continuous Immediately
  U0002 - High Speed CAN Communication Bus Performance This monitoring strategy checks if there is a global time out at diagnostic CAN. DCAN Received Message Flag = FALSE [Boolean] DCAN DiagStartTime = TRUE [Boolean] 0, 25 [s] continuous 2 DCY
U0146 - Lost Communication With Serial Data Gateway Module "A" This monitoring strategy checks if the Diagnose_01 CAN messages are received within the specified monitoring time. Diagnose_01 Received Message Flag = FALSE [Boolean] DCAN DiagStartTime = TRUE [Boolean] 6, 5 [s] continuous 2 DCY
U0122 - Lost Communication With Vehicle Dynamics Control Module This monitoring strategy checks if the ESP_21 CAN messages are received within the specified monitoring time. ESP_21 Received Message Flag = FALSE [Boolean] DCAN DiagStartTime = TRUE [Boolean] 0, 7 [s] continuous 2 DCY
U0146 - Lost Communication With Serial Data Gateway Module "A" This monitoring strategy checks if the Klemmen_Status_01 CAN messages are received within the specified monitoring time. Klemmen_Status_01 Received Message Flag = FALSE [Boolean] Network Management High State = Repeat Message OR Normal Operation Functional OR Normal Operation Stalling Help - 0, 95 [s] continuous Immediately
U0447 - Invalid Data Received From Serial Data Gateway Module "A" This monitoring strategy checks if the checksum values of the Klemmen_Status_01 CAN messages are correct. Klemmen_Status_01 Wrong Checksum Counter 2 - DCAN_BusActivStateSignal = TRUE - 0 [s] continuous Immediately
U0447 - Invalid Data Received From Serial Data Gateway Module "A" This monitoring strategy checks if the alive counter consecutive values of the Klemmen_Status_01 messages are correct. Klemmen_Status_01 Alive counter (n) - Klemmen_Status_01 Alive counter (n-1) OR Klemmen_Status_01 Alive counter (n) - Klemmen_Status_01 Alive counter (n-1) = 0 > 15 - - Network Management High State = Repeat Message OR Normal Operation Functional OR Normal Operation Stalling Help -- 0, 95 [s] continuous Immediately
U0146 - Lost Communication With Serial Data Gateway Module "A" This monitoring strategy checks if the MVK_01 CAN messages are received within the specified monitoring time. MVK_01 Received Message Flag = FALSE [Boolean] DCAN DiagStartTime = TRUE [Boolean] 1, 2 [s] continuous 2 DCY
U0100 - Lost Communication With ECM/PCM "A" This monitoring strategy checks if the OBD_01 CAN messages are received within the specified monitoring time. OBD_01 Received Message Flag = FALSE [Boolean] DCAN TdiagStart State = TRUE [Boolean] 1, 2 [s] continuous Immediately
U0146 - Lost Communication With Serial Data Gateway Module "A" This monitoring strategy checks if the Systeminfo_01 CAN messages are received within the specified monitoring time. Systeminfo_01 Received Message Flag = FALSE [Boolean] DCAN DiagStartTime = TRUE [Boolean] 0, 7 [s] continuous Immediately
U0100 - Lost Communication With ECM/PCM "A" This monitoring strategy checks if the Motor31 CAN messages are received within the specified monitoring time. Motor31 Received Message Flag = FALSE [Boolean] DCAN DiagStartTime = TRUE [Boolean] 0, 7 [s] continuous 2 DCY
U0100 - Lost Communication With ECM/PCM "A" This monitoring strategy checks if the Motor_EV_01 CAN messages are received within the specified monitoring time. Motor_EV_01 Received Message Flag = FALSE [Boolean] DCAN DiagStartTime = TRUE [Boolean] 1, 2 [s] continuous 2 DCY
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