Power Windows System Components
• | Driver Door Module (DDM) |
• | Passenger Door Module (PDM) |
• | LH Rear Door Module (LRDM) |
• | RH Rear Door Module (RRDM) |
• | Driver Door Switch Assembly (DDSA) |
• | RH Front Power Window Switch |
• | LH Rear Power Window Switch |
• | RH Rear Power Window Switch |
• | LH Front Power Window Motor |
• | RH Front Power Window Motor |
• | LH Rear Power Window Motor |
• | RH Rear Power Window Motor |
• | LH Front Window Intrusion Sensor |
• | RH Front Window Intrusion Sensor |
• | PWR WDO 30 Amp Circuit Breaker |
Power Windows Operation
The vehicle is equipped with power windows controlled by the door modules.
If the driver door module (DDM) receives a window switch request from one
of the window switches built into the driver door switch assembly (DDSA),
the DDM checks the Class 2 serial data to see if the status information
is correct (i.e. ignition switch position) to permit window operation to
occur. If the status information is correct, the DDM, either supplies power
and ground to its associated window motor, or sends a command via the power
door serial data line to the passenger door module controlling the window.
The passenger door module controlling the window then supplies power and
ground to its associated window motor to move the window as requested.
When one of the local window switches mounted on one of the passenger
doors is operated, the associated door module examines the request and checks
to see if there are any messages from the DDM prohibiting the movement.
If conditions are correct, and no prohibitive messages have been received
from the DDM, the associated door module then supplies power and ground
to its associated window motor to move the window as requested.
Windows Power and Ground
Each door module has its own separate battery positive voltage supply
circuit for power window operation, but they are all fed by the same 30 amp
power window circuit breaker located in the rear fuse block. Each door
module also has a separate ground circuit for its power window operation.
These circuits are in the same dedicated connector as the window motor drive
circuits of each door module.
Window Motors
Each door module supplies battery positive voltage and ground, through
the window motor drive circuits, to its associated window motor. The window
motors are reversible. The direction the window moves depends on which motor
drive circuit the battery positive voltage is applied to, and which motor
drive circuit the ground is applied to. To move the window in one direction,
the module applies battery positive voltage to one of the motor drive circuits,
and ground to the other motor drive circuit. When a window movement in the
opposite direction is needed, the module reverses the polarity and supplies
power and ground to the opposite circuits to move the window in the reverse
direction.
Power Windows Express Up Function
The driver door module (DDM) and the passenger front door module (PDM)
have the Express Up feature. This allows the front door windows to be closed
without holding the switch to the Up position for the entire window Up cycle.
Each of the front door window motors has a window sensor mounted to it.
The window sensors detect differences in their respective window motors
electrical pulses to determine if there is an obstruction to the travel
of its window glass. If one of the sensors detects that a passenger, or
other obstacle, has become trapped between the window and window frame,
it sends this information, via two communication circuits, to its associated
door module. The door module then takes the appropriate action and, either
disables the Express Up function, or reverses the direction of window travel.
Each front door module and the corresponding sensor are wired to each
other by four separate circuits in order to control the Express Up function.
Each front door module supplies battery positive voltage (B+), via the window
sensor battery positive voltage circuit, and ground, via the window sensor
low reference circuit, to the sensor. Each door module communicates with
its sensor via the other two separate and unique communication circuits.
The communication circuits are, the window sensor high speed communications
circuit, which is a one-way communications line from the sensor to the
module, and, the window sensor normal speed communications circuit, which
is a two-way communications line that carries information both ways, from
the sensor to the module, and, from the module to the sensor. These communication
lines are used for state-of-health messages, window switch command status,
and, to communicate the actual position of the window glass in relationship
to the distance traveled by the window.
If a front door module looses power for any reason, such as a vehicle
battery disconnect, the window sensor/motor assembly must be reprogrammed
once power has been restored to the door module. Refer to
Window Motor Programming - Express Function
.
Rear Window Lockout Feature
The rear window lockout switch is built into the Driver Door Switch
Assembly (DDSA). When it is pressed momentarily, the LED indicator is illuminated,
and the DDSA receives the switch signal. The DDSA sends a message over the
power door serial data line to the driver door module indicating that the
switch is active. The driver door module then sends a message over the power
door serial data line to both rear door modules prohibiting the rear windows
from being operated from the rear door window switches. The rear windows
can still be operated from the driver door by using the rear window switches
built into the DDSA.