Electrical Load Management
The automatic temperature control (ATC) module manages the vehicle electrical loads to:
- Maintain the vehicle battery in a healthy state of charge.
- Ensure adequate power is available for defrost demisting during engine warm-up.
- Ensure adequate power is available for air conditioning (A/C) during extended periods with the engine at idle speed.
- To maintain system voltage within acceptable limits.
- To provide adequate power to meet customer expectations.
Electrical load management is achieved by increasing the engine idle speed and controlling the electrical load of systems that do not affect the driveability or safety of the vehicle.
During the engine warm-up period, the automatic temperature control (ATC) module manages the electrical load to make sure that the battery voltage is maintained above a pre-determined level. The battery voltage level that is maintained and the duration of the start period varies with ambient air temperature and engine coolant temperature (ECT). After the engine warm-up period, the automatic temperature control (ATC) module manages the electrical load to make sure that the requested electrical load does not exceed the generator output.
The duration of the engine warm-up period depends on the ambient air temperature and the engine coolant temperature (ECT), as detailed in the following table:
| Ambient Air Temperature,°C (°F) | ECT,°C (°F) | |||
| <10 (<50) | >10 to <30 (>50 to <86) | >30 to <60 (>86 to <140) | >60 (>140) | |
| Warm-up Period, Minutes | ||||
| >10 (>50) | 15 | 15 | 15 | 15 |
| >5 to <10 (>41 to <50) | 15 | 15 | 15 | 15 |
| >0 to <5 (>32 to <41) | 10 | 15 | 15 | 15 |
| >-10 to <0 (>14 to <32) | 10 | 10 | 15 | 15 |
| <-10 (<14) | 5 | 5 | 10 | 15 |
The automatic temperature control (ATC) module calculates the electrical load from the battery voltage and generator output voltage, and compares the result against the maximum load available from the generator. The calculation is averaged across the first 20 seconds after the engine starts, and subsequently averaged every 60 seconds. When the engine is turned off, the automatic temperature control (ATC) module stores the status of the electrical load management for 20 seconds. If the engine is re-started within the 20 seconds, the automatic temperature control (ATC) module resumes electrical load management using the stored status. If the engine is re-started after the 20 seconds, the timers are reset and the automatic temperature control (ATC) module re-calculates the status.
If the electrical load is more than the maximum load available, the automatic temperature control (ATC) module requests an increase of engine idle speed using the medium speed controller area network (CAN) bus message to the engine control module (ECM). If an electrical load imbalance remains after an increase in engine idle speed, or if the electrical load is more than the capacity of the charging system, the automatic temperature control (ATC) module reduces the electrical load by reducing the power of some vehicle systems or inhibiting their operation. The number of systems controlled depends on the electrical load reduction required. The systems controlled and the order in which their power is reduced or they are inhibited are contained in three priority tables. The table used depends on the ambient air temperature, battery temperature and engine coolant temperature (ECT):
- The cold start table is used when the ambient air temperature is less than 5°C (41°F) and the engine coolant temperature (ECT) is less than 30°C (86°F).
- The hot start table is used when the ambient air temperature is 5°C (41°F) or more and the engine coolant temperature (ECT) is less than 30°C (86°F).
- The continuous table is used when battery temperature is more than 5°C (41°F) and the engine coolant temperature (ECT) is more than 50°C (122°F).
- If none of the above conditions are met, the automatic temperature control (ATC) module adopts the last used table.
| Priority | System | |
|---|---|---|
| Power Reduction | Inhibited | |
| 1 | - | Air suspension |
| 2 | - | Front seat heaters |
| 3 | - | Entertainment system |
| - | 4 | Front seat heaters |
| 5 | - | Rear window heater |
| 6 | - | Windshield washer jet and exterior mirror heaters |
| - | 7 | Windshield washer jet and exterior mirror heaters |
| 8 | - | Windshield heater |
| 9 | - | Climate control blower |
| - | 10 | Rear window heater |
| - | 11 | Windshield heater |
| Priority | System | |
|---|---|---|
| Power Reduction | Inhibited | |
| - | 1 | Front seat heaters; windshield washer jet and exterior mirror heaters |
| 2 | - | Windshield heater |
| 3 | - | Rear window heater |
| 4 | - | Air suspension |
| 5 | - | Entertainment system |
| - | 6 | Windshield heater |
| - | 7 | Rear window heater |
| Priority | System | |
|---|---|---|
| Power Reduction | Inhibited | |
| - | 1 | Front seat heaters |
| 2 | - | Windshield heater |
| 3 | - | Rear window heater |
| 4 | - | Air suspension |
| 5 | - | Entertainment system |
Engine idle speed changes, and electrical load changes of systems not under direct control of the automatic temperature control (ATC) module (air suspension and entertainment), are initiated using the appropriate medium speed controller area network (CAN) bus message. When partial operation is requested:
- The air suspension system still performs height changes but reduces air compressor operation by not replenishing the reservoir.
- The entertainment system restricts the maximum volume level and reduces the output frequency bandwidth.