Without knowing what your dealing with ,and just replacing parts is futile at best . Do you know what all is involved in the power window electrical circuits ? Power Windows System Components The following components are used to control the power windows: • Driver Door Module (DDM) • Passenger Front 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 • Class 2 serial data circuit • Power door serial data circuit • PWR WDO 30 Amp Circuit Breaker • DRVMDL Fuse (10 amp) Driver Door Switch Assembly and Driver Door Module logic, Driver Door Module internal driver operation • PASS MDL Fuse (10 amp) Front Passenger Door Module logic and internal driver operation • RRDR MDL Fuse (10 amp) Left Rear Door Module and Right Rear Door Module logic and internal driver operation Power Windows Operation The vehicle is equipped with power windows controlled by the door modules. Each passenger door window can be operated, either from a switch built into the driver door switch assembly (DDSA), or from a switch mounted locally to its associated door. The driver door window can be operated only from the driver door window switch built into the DDSA. When a window is operated from the DDSA, the DDSA interprets the window switch signal as a specific window switch request and sends the information to the driver door module (DDM) via the power door serial data circuit. The DDM examines the request and checks to see if it has received any class 2 serial data messages from any of the other vehicle modules (i.e. ignition switch position) prohibiting the movement of the window. If the window being operated is the driver door window, and if no prohibitive class 2 messages have been received, the DDM then applies voltage and ground to the driver door window motor to move the window glass as requested. If the window being operated is a passenger door window, and no prohibitive class 2 messages have been received, the DDM sends the request, via the power door serial data circuit, to the appropriate passenger door module. The passenger door module then applies voltage and ground to the passenger door window motor to move the window glass as requested. When a passenger door window is operated from the power window switch mounted locally to its associated door, the passenger door module first checks to see if the DDM has received any prohibitive class 2 serial data messages. If there are no prohibitive messages, the passenger door module powers the associated passenger door window motor. Both front door windows have the express down feature. This allows the front door windows to be fully opened by momentarily pulling the appropriate window switch lever to the second detente and then releasing.
Door Modules Power and Ground In order to control power window operations, as well as other door functions, door modules must be powered up. Battery voltage is supplied from the rear fuse block, through separate circuits, to each door module. Each door module is separately grounded through a ground stake. The door modules also use these voltage and ground supplies to provide power and ground to their associated window and lock switches. The front door modules, in addition, use these voltage and ground supplies for outside rearview mirror operations. The DDSA battery voltage circuit is fed, through the DDM, by the DRVMDL 10 amp fuse located in the Rear Fuse Block. The DDM battery voltage circuit is fed by the DRVMDL 10 amp fuse located in the Rear Fuse Block. The PDM battery voltage circuit is fed by the PASS MDL 10 amp fuse located in the Rear Fuse Block. The LRDM battery voltage circuit and the RRDM battery voltage circuit are both fed by the RRDR MDL 10 amp fuse located in the Rear Fuse Block. These circuits are in the C1 harness connector of each door module and must not be confused with the door modules voltage and ground circuits that are used exclusively to drive the power window motors.
Circuit Description The power door serial style="display:none;">Circuit Description The power door serial data circuit provides a means for information exchange among the vehicle door modules. Door module information on inputs and commanded outputs are converted to power door serial data for exchange among the door modules. The drivers door module (DDM) can also take information from modules connected to the class 2 serial data circuit and relay the command to the power door serial data link. The vehicle power mode message (ignition switch position) from the dash integration module (DIM) is an example. The DDM periodically addresses each module on the power door serial data circuit. When a module does not respond to the DDM, the DTC for that module is set. DTC Descriptors This diagnostic procedure supports the following DTCs: • DTC U1161 Loss of PDM Serial Data • DTC U1162 Loss of LRDM Serial Data • DTC U1163 Loss of RRDM Serial Data • DTC U1170 Loss of Driver Door Switch Assembly Serial Data
Answers & Comments
Without knowing what your dealing with ,and just replacing parts is futile at best . Do you know what all is involved in the power window electrical circuits ?
Power Windows System Components
The following components are used to control the power windows:
• Driver Door Module (DDM)
• Passenger Front 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
• Class 2 serial data circuit
• Power door serial data circuit
• PWR WDO 30 Amp Circuit Breaker
• DRVMDL Fuse (10 amp)
Driver Door Switch Assembly and Driver Door Module logic, Driver Door Module internal driver operation
• PASS MDL Fuse (10 amp)
Front Passenger Door Module logic and internal driver operation
• RRDR MDL Fuse (10 amp)
Left Rear Door Module and Right Rear Door Module logic and internal driver operation
Power Windows Operation
The vehicle is equipped with power windows controlled by the door modules. Each passenger door window can be operated, either from a switch built into the driver door switch assembly (DDSA), or from a switch mounted locally to its associated door. The driver door window can be operated only from the driver door window switch built into the DDSA.
When a window is operated from the DDSA, the DDSA interprets the window switch signal as a specific window switch request and sends the information to the driver door module (DDM) via the power door serial data circuit. The DDM examines the request and checks to see if it has received any class 2 serial data messages from any of the other vehicle modules (i.e. ignition switch position) prohibiting the movement of the window. If the window being operated is the driver door window, and if no prohibitive class 2 messages have been received, the DDM then applies voltage and ground to the driver door window motor to move the window glass as requested. If the window being operated is a passenger door window, and no prohibitive class 2 messages have been received, the DDM sends the request, via the power door serial data circuit, to the appropriate passenger door module. The passenger door module then applies voltage and ground to the passenger door window motor to move the window glass as requested.
When a passenger door window is operated from the power window switch mounted locally to its associated door, the passenger door module first checks to see if the DDM has received any prohibitive class 2 serial data messages. If there are no prohibitive messages, the passenger door module powers the associated passenger door window motor.
Both front door windows have the express down feature. This allows the front door windows to be fully opened by momentarily pulling the appropriate window switch lever to the second detente and then releasing.
Door Modules Power and Ground
In order to control power window operations, as well as other door functions, door modules must be powered up. Battery voltage is supplied from the rear fuse block, through separate circuits, to each door module. Each door module is separately grounded through a ground stake. The door modules also use these voltage and ground supplies to provide power and ground to their associated window and lock switches. The front door modules, in addition, use these voltage and ground supplies for outside rearview mirror operations.
The DDSA battery voltage circuit is fed, through the DDM, by the DRVMDL 10 amp fuse located in the Rear Fuse Block.
The DDM battery voltage circuit is fed by the DRVMDL 10 amp fuse located in the Rear Fuse Block.
The PDM battery voltage circuit is fed by the PASS MDL 10 amp fuse located in the Rear Fuse Block.
The LRDM battery voltage circuit and the RRDM battery voltage circuit are both fed by the RRDR MDL 10 amp fuse located in the Rear Fuse Block.
These circuits are in the C1 harness connector of each door module and must not be confused with the door modules voltage and ground circuits that are used exclusively to drive the power window motors.
DTC B3527 Window Lock Out Switch Circuit Low
Circuit Description
The power door serial style="display:none;">Circuit Description The power door serial data circuit provides a means for information exchange among the vehicle door modules. Door module information on inputs and commanded outputs are converted to power door serial data for exchange among the door modules. The drivers door module (DDM) can also take information from modules connected to the class 2 serial data circuit and relay the command to the power door serial data link. The vehicle power mode message (ignition switch position) from the dash integration module (DIM) is an example. The DDM periodically addresses each module on the power door serial data circuit. When a module does not respond to the DDM, the DTC for that module is set. DTC Descriptors This diagnostic procedure supports the following DTCs: • DTC U1161 Loss of PDM Serial Data • DTC U1162 Loss of LRDM Serial Data • DTC U1163 Loss of RRDM Serial Data • DTC U1170 Loss of Driver Door Switch Assembly Serial Data