Belt Starter Generator Control Module (BSGCM) --, 2024 MY
WARNING: This page is about a different car, the 2024 Audi A3 Quattro and 2024 Audi A3. However, it is still accessible from the selected car via links, so may be relevant.
| Component / System | DTC / DTC Description | Monitor Strategy Description | Malfunction Criteria | Threshold Value | Secondary Parameters | Enable Condition | Monitoring Time Length | MIL Illum. | ||
|---|---|---|---|---|---|---|---|---|---|---|
| 12 V voltage network sensor 1 / sensor 2 | P0563 - System Voltage High | This monitor strategy checks if there is a 12 V Voltage Sensor 1 circuit high fault. | 12 V 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 12 V Voltage Sensor 1 circuit low or open circuit fault. | 12 V Network SGCM sensor 1 | ≤ 1.5 | [V] | 12 V Network SGCM sensor 2 | ≥ 4 | [V] | 0.1 [s] continuous | 2 DCY | |
| P0563 - System Voltage High | This monitor strategy checks if there is a 12 V Voltage Sensor 1 out of range high | 12 V 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 12 V Voltage Sensor 1 out of range low fault | 12 V Network SGCM sensor 1 | ≤ 3 | [V] | 12 V 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 12 V Voltage Sensor 2 circuit high fault. | 12 V 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 12 V Voltage Sensor 2 circuit low or open circuit fault. | 12 V Network SGCM sensor 2 | ≤ 1.5 | [V] | 12 V 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 12 V Voltage Sensor 2 out of range high | 12 V 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 12 V Voltage Sensor 2 out of range low fault | 12 V Network SGCM sensor 2 | ≤ 3 | [V] | 12 V Network SGCM sensor 1 | ≥ 4 | [V] | 0.2 [s] continuous | 2 DCY | |
| P0560 - System Voltage | This monitor strategy checks the 12 V Voltage Sensor signals rationality | abs (12 V Network SGCM sensor 1 - 12 V Network SGCM sensor 2) | ≥ 1 | [V] | NA | NA | NA | 0.3 [s] continuous | 2 DCY | |
| Mid voltage network sensor 1 / sensor 2 | P063D - Generator Voltage Sense Circuit "A" High | 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 - Generator Voltage Sense Circuit "A" Low | 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 - Generator Voltage Sense Circuit "A" High | 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 - Generator Voltage Sense Circuit "A" Low | 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 | 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] | Mid voltage network sensor 1 | ≥ 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 - Generator Voltage Sense Circuit "A" Range/Performance | 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 Converter = 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 Converter = 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 Converter = 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 Converter = 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 Sensor 1 and Buck Converter Voltage Sensor 2. | 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 | 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 | |
| Sensor Iz | 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 | |
| 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] - | ||||||
| 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 power up | Immediately | |
| 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] - | ||||||
| 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 power up | Immediately | |
| 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] - | ||||||
| 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 Amplitude UVW - 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 power up | Immediately | ||
| 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] - | ||||||
| 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 power up | Immediately | |
| 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] - | ||||||
| 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 power up | Immediately | |
| 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 phase X, Y and Z signals amplitude. | 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 | |
| ≥ 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] - | ||||||
| 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 | |
| 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 | |
| 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 | ||
| 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 = 6 s 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 | |
| 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 | ||
| 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 strategy 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 sensors signals. | Power Module 3 Temperature Sensor - Median PM | ≥ 25 | [K] | NA | NA | NA | 1 [s] continuous | Immediately | |
| 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 sensors signals. | Median PM - Power Module 3 Temperature Sensor | ≥ 25 | [K] | NA | NA | NA | 1 [s] continuous | Immediately | ||
| 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 = 6 s 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 strategy 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 with the Track 1, Track 2 and Track 3 RPS signals amplitude. | 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 | |
| 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 signals amplitude. | 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 | |
| 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 signals amplitude. | 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 | |
| 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 | 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 |
| 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 | ||
| 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 | ||
| This monitor strategy checks if there is any EEPROM fault. | Unrecoverable data corruption detection | = TRUE | [Boolean] | NA | NA | NA | 2 times continuous | 2 DCY | ||
| This monitor strategy checks if there is any EEPROM fault on calibration data. | calibration data | = Corrupted | - | NA | NA | NA | 0 [s] Once per power up | 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] | ||||||
| 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 | ||
| 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 | ||
| 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 | ||
| 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 | ||
| 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 | ||
| 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 | ||
| 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 |
| 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 | ||
| 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 12 V supply terminal. | 12 V Network SGCM sensor 1 AND 12 V 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 48 V supply. | Mid voltage network sensor 1 AND Mid voltage network sensor 2 | ≤ 2 ≤ 2 | [V] [V] | Middle voltage system active When the mid voltage battery 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 | |
| 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 | ||
| This monitor strategy checks if the Power Module 1 Temperature Sensor signal is exceeding a critical upper limit. | Power Module 1 Temperature Sensor | ≥ 165 | [°] | NA | NA | NA | 2.5 [s] continuous | 2 DCY | ||
| 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 | ||
| 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 | ||
| 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 | |
| This monitor strategy checks if the estimated lead frame temperature is exceeding a critical upper limit. | Lead Frame Estimated Temperature | ≥ 180 | [°] | NA | NA | NA | 1 [s] continuous | 2 DCY | ||
| 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 | ||
| 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 | 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 | |
| This monitor strategy monitors the proper functionality of the 48 V - 12 V 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 power up | Immediately | ||
| This monitor strategy monitors the proper functionality of the fly back converter. | Flyback voltage | ≤ 9 | [V] | 12 V Network SGCM sensor 1 AND 12 V 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 | |
| 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 | |
| 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 Timeout | > 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 Phase Current Sensor Iw | ≥ 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] | |||||
| 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 Phase Current Sensor Iz | ≥ 10 ≥ 10 ≥ 20 ≥ 20 ≤ 10 ≤ 10 ≥ 10 ≥ 10 | [A] [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 Phase Current Sensor Iz | ≤ -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] | |||||
| 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 Phase Current Sensor Iy | ≥ 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 | 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] | 12 V Network SGCM sensor 1 AND 12 V 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 | |
| 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 | |
| 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 | |
| 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] | 12 V Network SGCM sensor 1 AND 12 V 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 | |
| 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 System info_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 Motor 31 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 | |
| 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 |