Lincoln Aviator: Voltage Converter/Inverter / Description and Operation - Direct Current/Direct Current (DC/DC) Converter Control Module - System Operation and Component Description
System Operation
System Diagram - DCDC
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| Item | Description |
|---|---|
| 1 | Ignition Switch |
| 2 | PCM |
| 3 | SOBDMC |
| 4 | BCM |
| 5 | BECM |
| 6 | DCDC |
| 7 | High Voltage/Low Current Fuse |
| 8 | 12V Battery Monitoring Sensor |
Network Message Chart
DCDC Network Input Messages
| Broadcast Message | Originating Module | Message Purpose |
| DCDC HEV wake up enable | BECM, BCCM (battery charger control module) ( PHEV only) | Command to enable the DCDC |
| DCDC HEV wake up enable | SOBDMC | Hard wired command to enable the DCDC |
| High voltage input | SOBDMC | Voltage measured at SOBDMC used to compare with voltage at the DCDC. |
| Power pack torque status | PCM | Determines if the power pack is on or off and if torque is available. |
| Gear lever position | PCM | Determines the transaxle gear state. |
| DCDC low setpoint request | PCM | Enables and sets the low voltage charging setpoint. |
| OBDII warm up completions | PCM | Counter for DTC aging. |
| Ambient air temperature | PCM | Ambient air temperature measured. |
| High voltage battery status | BECM | High voltage battery current flow, contactor commands and system shutdown status. |
| Power mode status | BCM | Information of current power mode state. |
| Ignition status | BCM | Determines the ignition state. |
| 12-volt battery sensor voltage (gateway) | BCM | 12-volt battery voltage measured with battery sensor. |
| Vehicle configuration data (gateway) | BCM | Vehicle configuration strategy. |
DCDC Operation
The DCDC is responsible for maintaining and charging the 12-volt battery. The SOBDMC sends a HEV wakeup signal to the DCDC through a hardwired circuit. For information on the high-voltage battery system,
Refer to: High Voltage Battery, Mounting and Cables - Plug-In Hybrid Electric Vehicle (PHEV) - System Operation and Component Description (414-03A High Voltage Battery, Mounting and Cables, Description and Operation).
The DCDC
is liquid cooled by the electric motor cooling system circuit. The
electric motor cooling circuit uses an electric motor diverter valve
that acts as a system thermostat, allowing the coolant to flow within
the motor circuit while the motor warms. As the coolant warms, the
diverter valve slowly opens to allow coolant flow to the radiator. For
more information on electric powertrain cooling,
Refer to: Electric Powertrain Cooling - Component Location (303-03C Electric Powertrain Cooling - 3.0L EcoBoost – Hybrid (BQ), Description and Operation).
The DCDC communicates on the HS-CAN1 with or without the high voltage contactors closed. A wake up circuit from the SOBDMC activates the module processor. If the wake up circuit fails and high-voltage is present, the DCDC still charges but with a delay.
Faults with the DCDC that cause low or excessively high 12-volt battery voltage result in the DCDC sending a network message requesting the CHECK CHARGING SYSTEM message be displayed in the message center.
The DCDC is protected by a 30 amp high voltage low current fuse located in the high-voltage BJB. The DCDC steps the high-voltage down to a low-voltage (between 13.0 and 15.5 volts, depending on vehicle needs), providing power to the vehicle low-voltage battery systems. Depending on the vehicle and environmental conditions, the DCDC is capable of outputting as many as 165 amps to the 12-volt battery.
Component Description
DCDC
The DCDC is responsible for maintaining and charging the 12-volt battery, it communicates on the HS-CAN1.
SOBDMC
The SOBDMC provides a wake up signal to the DCDC during key on.
PCM
The PCM communicates on the HS-CAN1 and determines the ambient air temperature, enables and sets the low voltage charging setpoint, determines power pack status and transaxle gear state.
BECM
The BECM communicates on the HS-CAN1, determines the high voltage battery current flow, commands the high voltage contactors and monitors system shutdown status.
BCM
The BCM communicates on the HS-CAN1, determines the ignition state, communicates the power mode state and measures the 12-volt battery voltage with the battery sensor.
Description and Operation - Direct Current/Direct Current (DC/DC) Converter Control Module - Overview
OVERVIEW
WARNING:
To prevent the risk of high-voltage shock, always follow
precisely all warnings and service instructions, including instructions
to depower the system...
Diagnosis and Testing - Direct Current/Alternating Current (DC/AC) Inverter
Inspection and Verification
Before
diagnosing or repairing the Direct Current/Alternating Current (DC/AC)
Inverter system refer to the Owner's Literature and REFER to: Direct Current/Alternating Current (DC/AC) Inverter - System Operation and Component Description (414-05 Voltage Converter/Inverter, Description and Operation)...
Other information:
Lincoln Aviator 2020-2024 Service Manual: Removal and Installation - Fuel Filler Door Assembly - Plug-In Hybrid Electric Vehicle (PHEV)
Special Tool(s) / General Equipment Flat Headed Screw Driver Knife Removal NOTE: Removal steps in this procedure may contain installation details. NOTE: The fuel filler door assembly is damaged during the removal process and requires a new fuel filler door assembly installed...
Lincoln Aviator 2020-2024 Service Manual: Removal and Installation - Cabin Heater Coolant Diverter Valve
Special Tool(s) / General Equipment Hose Clamp(s) Hose Clamp Remover/Installer Fluid Container Removal NOTE: Removal steps in this procedure may contain installation details. Drain the cooling system. Refer to: Engine Cooling System Draining, Vacuum Filling and Bleeding (303-03A Engine Cooling - 3...
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Children and Airbags
WARNING: Airbags can kill or injure a child in a child restraint. Never place a rear-facing child restraint in front of an active airbag. If you must use a forward-facing child restraint in the front seat, move the seat upon which the child restraint is installed all the way back.
