Contents Wiring diagrams Section: Door Locks & Anti-Theft Systems All sections

Keyless Entry System: Other Cadillac STS I

Door Locks & Anti-Theft Systems 1 illustration ~4757 words

Important Preliminary Checks Before Starting

  1. Review the Keyless Entry System Description and Operation in order to familiarize yourself with the system functions. Refer to «Keyless Entry System Description and Operation»(ref-197557-S17508693412005101200000) .
  2. Perform the «Diagnostic System Check - Vehicle»(ref-197532-S30271296932005101200000) in Vehicle DTC Information before using the Symptom Tables in order to verify that all of the following are true: There are no DTCs set. The control modules can communicate via the serial data link.

Intermittent

Faulty electrical connections or wiring may be the cause of intermittent conditions. Refer to Testing for Intermittent Conditions and Poor Connections in Wiring Systems.

Key Fob Not Detected

StepActionYesNo
Schematic Reference: Keyless Entry Schematics DEFINITION: Key Fob Not Detected
1Did you perform the Diagnostic System Check - Vehicle?Go to Step 2Go to Diagnostic System Check - Vehicle in Vehicle DTC Information
2With a valid key fob, attempt to start the vehicle. Is the NO FOB DETECTED message displayed on the driver information center (DIC)?Go to Step 3Go to Testing for Intermittent Conditions and Poor Connections in Wiring Systems
3Exit the vehicle with the key fob. Lock the vehicle. Attempt to enter both the driver and passenger doors passively with the key fob. Are you able to enter the vehicle from both doors?Go to Step 4Go to Keyless Entry System Inoperative (Active) or Keyless Entry System Inoperative (Passive)
4IMPORTANT: Areas of high radio frequency (RF) traffic may cause an intermittent NO FOB DETECTED message. This is a normal condition. If the vehicle is parked in an area of high RF traffic, move vehicle before continuing with diagnostics. Move the key fob to various places within the vehicle and attempt to start.Does the vehicle start?System OKGo to Step 5
5Place the key fob in the limp home pocket located in the center console. Turn ON the ignition with the engine OFF by pressing and holding the ACC button for 5 seconds. Connect a scan tool to the vehicle. Check vehicle for any DTCs. Were any DTCs found?Go to Diagnostic Trouble Code (DTC) List - Vehicle in Vehicle DTC InformationGo to Step 6
6IMPORTANT: The ignition start button must be pressed to produce the voltage pulse to the passive antenna. Disconnect the console antenna at the center console. With the keyless entry transmitter held near the headliner antenna, press the ignition start button. Does the vehicle start?Go to Step 8Go to Step 7
7IMPORTANT: The voltage signal sent by the remote control door lock receiver (RCDLR) to the passive antenna is an AC voltage signal. The DMM must be set on AC voltage setting to record the voltage pulse to the passive antenna. Use a DMM to record the voltage pulse using the MIN MAX setting to capture the AC voltage pulse to the passive antenna. The ignition start button must be pressed to produce the voltage pulse to the passive antenna. Disconnect the headliner antenna. With the DMM measure/capture for an AC voltage signal between the keyless entry signal circuit and the low reference circuit. Was an AC voltage signal captured on the DMM?Go to Step 12Go to Step 9
8IMPORTANT: The voltage signal sent by the RCDLR to the passive antenna is an AC voltage signal. The DMM must be set on AC voltage setting to record the voltage pulse to the passive antenna. Use a DMM to record the voltage pulse using the MIN MAX setting to capture the AC voltage pulse to the passive antenna. The ignition start button must be pressed to produce the voltage pulse to the passive antenna. With the DMM, measure/capture for an AC voltage signal between the console keyless entry antenna signal circuit and the low reference circuit.Was an AC voltage signal captured on the DMM?Go to Step 13Go to Step 10
9Test the headliner keyless entry antenna signal circuit and low reference circuit for an open or short to ground. Refer to Circuit Testing and Wiring Repairs in Wiring Systems. Did you find and correct the condition?Go to Step 17Go to Step 11
10Test the console keyless entry antenna signal circuit and low reference circuit for an open or short to ground. Refer to Circuit Testing and Wiring Repairs in Wiring Systems. Did you find and correct the condition?Go to Step 17Go to Step 11
11Inspect for poor connections at the RCDLR. Refer to Testing for Intermittent Conditions and Poor Connections and Connector Repairs in Wiring Systems. Did you find and correct the condition?Go to Step 17Go to Step 14
12Inspect for poor connections at the headliner antenna. Refer to Testing for Intermittent Conditions and Poor Connections and Connector Repairs in Wiring Systems. Did you find and correct the condition?Go to Step 17Go to Step 15
13Inspect for poor connections at the console antenna. Refer to Testing for Intermittent Conditions and Poor Connections and Connector Repairs in Wiring Systems. Did you find and correct the condition?Go to Step 17Go to Step 16
14Replace the RCDLR. Refer to Control Module References in Computer/Integrating Systems for replacement, setup, and programming. Did you complete the replacement?Go to Step 17
15Replace the headliner antenna. Refer to Receiver, Antenna Replacement - Remote Control Door Lock and Theft Deterrent . Did you complete the replacement?Go to Step 17
16Replace the console antenna. Refer to Receiver, Antenna Replacement - Remote Control Door Lock and Theft Deterrent . Did you complete the replacement?Go to Step 17
17With a valid key fob, attempt to start the vehicle. Is the NO FOB DETECTED message displayed on the DIC?Go to Step 2System OK
IMPORTANT
Areas of high radio frequency (RF) traffic may cause an intermittent NO FOB DETECTED message. This is a normal condition. If the vehicle is parked in an area of high RF traffic, move vehicle before continuing with diagnostics.
IMPORTANT
The ignition start button must be pressed to produce the voltage pulse to the passive antenna.
IMPORTANT
The voltage signal sent by the remote control door lock receiver (RCDLR) to the passive antenna is an AC voltage signal. The DMM must be set on AC voltage setting to record the voltage pulse to the passive antenna. Use a DMM to record the voltage pulse using the MIN MAX setting to capture the AC voltage pulse to the passive antenna. The ignition start button must be pressed to produce the voltage pulse to the passive antenna.
IMPORTANT
The voltage signal sent by the RCDLR to the passive antenna is an AC voltage signal. The DMM must be set on AC voltage setting to record the voltage pulse to the passive antenna. Use a DMM to record the voltage pulse using the MIN MAX setting to capture the AC voltage pulse to the passive antenna. The ignition start button must be pressed to produce the voltage pulse to the passive antenna.

Key Fob Not Detected

Scheme 47

Scheme 47: Receiver, Antenna Replacement - Remote Control Door Lock and Theft Deterrent
CalloutComponent Name
Door Lock Antenna Assembly Preliminary Procedure Remove the center console end cap. Refer to Center Console End Panel Replacement in Instrument Panel, Gages, and Console. Disconnect the electrical connectors.
1Antenna Assembly, Door Lock
Door Lock Ignition Key Antenna Assembly Preliminary Procedure Remove the center console. Refer to Console Replacement - Front Floor in Instrument Panel, Gages, and Console. Remove the console HVAC air duct.
2Antenna Assembly, Ignition Lock Key
Door Lock Ignition Key Antenna Assembly Preliminary Procedure Remove the headliner. Refer to Headliner Replacement in Interior Trim. Disconnect the electrical connectors.
3Antenna Assembly, Ignition Lock Key
Door Lock Ignition Key Antenna Assembly Preliminary Procedure Remove the rear compartment sill trim. Refer to Sill Plate, Striker, Weatherstrip Replacement - Rear Compartment in Body Rear End. Disconnect the electrical connectors.
4Antenna Assembly, Ignition Lock Key
Remote Control Door Lock Receiver Preliminary Procedure Remove the rear compartment trim. Refer to Compartment Trim Panel Replacement - Rear in Body Rear End. Disconnect the electrical connectors. If replacing the receiver, program the receiver. Refer to Door Control Module Programming and Setup in Programming and Setup.
5Receiver Assembly, Remote Control Door Lock and Theft Deterrent

Receiver, Antenna Replacement - Remote Control Door Lock and Theft Deterrent

Transmitter Programming (Domestic)

IMPORTANTDo not operate or program the key fobs in the vicinity of other vehicles that are in the keyless entry program mode. This will prevent the programming of the key fobs to the incorrect vehicle.

There are 4 methods for programming key fobs. Up to 4 key fobs may be programmed to the remote control door lock receiver (RCDLR). Each programmed key fob is given a position of #1-#4 in the RCDLR memory.

Method 1 - Key Fob Quick Learn

This procedure will add key fobs. Fobs will be numbered in sequence based on when they are programmed; if 2 fobs are currently programmed to the RCDLR, a fob programmed using this method will be numbered as Fob 3. This procedure requires that you have a known good key fob, a replacement key fob, and the vehicles mechanical key.

IMPORTANTThis procedure is not available when the maximum number of fobs (4) have been programmed. If 4 key fobs are programmed to this RCDLR and this method is attempted, the driver information center (DIC) will display MAX FOBS LEARNED and the programming procedure will exit. Method 4 must be used in this instance.
  1. The vehicle must be OFF.
  2. Place a known key fob within the interior of the vehicle.
  3. Insert the vehicle key in the driver door lock cylinder located in the driver door handle and cycle the key 5 times within 5 seconds.
  4. The DIC will display a message: READY FOR FOB X (X = fob 2, 3, or 4).
  5. Place the replacement key fob in the console fob pocket with the buttons facing forward.
  6. A beep will occur and the DIC will display: READY FOR FOB X (X = fob 3 or 4) or MAX FOBS LEARNED.
  7. If programming additional key fobs, repeat steps 5 and 6, or press the OFF/ACC portion of the ignition switch to exit programming mode.
  8. Operate the active portion of each key fob in order to verify correct system operation.

Method 2 - Key Fob Slot Programming

This procedure will add or replace a key fob. Method 2 allows you to choose which location (slot) the unprogrammed fob will be learned to. If you are replacing a key fob, this method will erase the previously known key fob programmed to that particular slot. This procedure requires that you have a known good key fob, a replacement key fob, the vehicle mechanical key, and a scan tool.

IMPORTANTThis procedure is not available when the maximum number of fobs (4) have been programmed. If 4 key fobs are programmed to this RCDLR and this method is attempted, the DIC will display MAX FOBS LEARNED and the programming procedure will exit. Method 4 must be used in this instance.
  1. The vehicle must be OFF.
  2. Place a known key fob within the interior of the vehicle.
  3. Insert the vehicle key in the driver door lock cylinder located in the driver door handle and cycle the key 5 times within 5 seconds.
  4. Install a scan tool.
  5. Use the scan tool, to access the following: Vehicle Control Systems Computer/Integrating Systems Module Replacement/Setup RCDLR Program Key Fobs
  6. Select Fob X (X = 1, 2, 3, or 4) on the scan tool. This will be the slot you wish to program to.
  7. Place the replacement key fob in the console pocket with the buttons facing forward. A beep will occur indicating programming completion. The previously known fob is now erased.
  8. If programming additional key fobs, repeat steps 4-8, or press the OFF/ACC portion of the ignition switch to exit programming.
  9. Remove the scan tool.
  10. Operate the active portion of each key fob in order to verify correct system operation.

Method 3 - Key Fob Auto Learn

This procedure will first erase all known key fobs. The procedure will then program a single or multiple key fobs. Method 3 is a series of three 10-minute key cycles, for a total of 30 minutes. This procedure requires that you have a replacement key fob and the vehicle mechanical key.

IMPORTANTAll previously programmed key fobs will be erased upon completion of the 30-minute programming procedure. The order in which the key fobs are programmed will determine its numbering position within the RCDLR memory. The first key fob programmed will be key fob #1, and the second key fob programmed will be key fob #2. The number stamped on the key fob case is for reference only: #2 can be programmed as #1. Do not place any known good key fobs in the vicinity of the vehicle when programming with Method 3. If the RCDLR recognizes a known good key fob during Method 3 programming, the programming mode will resort to Method 1.
  1. The vehicle must be OFF.
  2. Place the replacement key fob in the console pocket with the buttons facing forward.
  3. Insert the vehicle key in the driver door lock cylinder located in the driver door handle and cycle the key 5 times within 5 seconds.
  4. The DIC will display a message: OFF/ACC TO LEARN.
  5. Press the OFF/ACC portion of the ignition button.
  6. The DIC will display a message: WAIT 10 MINUTES, then it will count down from 10 to 0, one minute at a time.
  7. When the counter reaches 0, DIC will display OFF/ACC TO LEARN.
  8. Repeat steps 6-7 two more times, for a total of 30 minutes.
  9. A beep will occur and the DIC will display: READY FOR FOB 1. At this time all previously known key fobs have been erased. When fob 1 is programmed a beep will be heard and the DIC will display a message: READY FOR FOB 2.
  10. Additional key fobs can be programmed by taking fob 1 out of the pocket and inserting fob 2. If desired, up to 4 fobs can be programmed. Once 4 fobs have been learned, the DIC will display a message: MAX FOBS LEARNED, and automatically exit the program mode.
  11. If learning less than 4 key fobs, press the OFF/ACC portion of the ignition button to exit the program mode.
  12. Operate the active portion of each key fob in order to verify correct system operation.

Method 4 - Service Programming System Fob Programming

This procedure is a 10-minute relearn procedure using the Techline Terminal with SPS software. Once the 10-minute timer has expired, the fobs can be programmed similar to Method 2 using slot programming. A scan tool, Techline Terminal, and a replacement key fob are required to perform this procedure.

  1. Place the vehicle in the Vehicle On, Engine Off mode.
  2. Connect a scan tool to the vehicle.
  3. Insure that all power consuming devices are turned OFF on the vehicle.
  4. With a scan tool, select Request Info under Service Programming System and follow the scan tool on-screen instructions.
  5. Disconnect the scan tool from the vehicle and connect the scan tool to a Techline Terminal with the current Service Programming System (SPS) software.
  6. Turn the vehicle OFF.
  7. On the Techline Terminal, select Service Programming System and follow the Techline Terminal on-screen instructions. Ensure the correct programming procedure is selected based on component being replaced or programmed. See Important above.
  8. Disconnect the scan tool from the Techline Terminal and re-connect the scan tool to the vehicle.
  9. With a scan tool, select Program ECU under Service Programming System.
  10. At this point the scan tool must remain connected for the duration of the 10 minute relearn procedure.
  11. When the 10 minute relearn procedure has completed, use the scan tool to access the following: Vehicle Control Systems Computer/Integrating Systems Module Replacement/Setup RCDLR Program Key Fobs
  12. Select Fob X (X = 1, 2, 3, or 4) on the scan tool. This will be the slot you wish to program to.
  13. Place the replacement key fob in the console pocket with the buttons facing forward. A beep will occur indicating programming completion. The previously known fob is now erased.
  14. If programming additional key fobs, repeat steps 12-13, or press the OFF/ACC portion of the ignition switch to exit programming.
  15. Remove the scan tool.
  16. Operate the active portion of each key fob in order to verify correct system operation.

Transmitter Programming (Export - Including Canada)

IMPORTANTDo not operate or program the key fobs in the vicinity of other vehicles that are in the keyless entry program mode. This prevents the programming of the key fobs to the incorrect vehicle.

There are 2 methods for programming key fobs. Up to 4 key fobs may be programmed to the remote control door lock receiver (RCDLR). Each programmed key fob is given a position of #1-#4 in the RCDLR memory.

This procedure is used when adding key fobs. Fobs will be numbered in sequence based on when they are programmed; if 2 fobs are currently programmed to the RCDLR, a fob programmed using this method will be numbered as Fob 3. This procedure requires that you have 2 known good key fobs, a replacement key fob, and the vehicles mechanical key.

IMPORTANTThis procedure is not available when the maximum number of fobs (4) have been programmed. If 4 key fobs are programmed to this RCDLR and this method is attempted, the driver information center (DIC) will display MAX FOBS LEARNED and the programming procedure will exit. Method 2 must be used in this instance.
  1. The vehicle must be OFF.
  2. Open the rear compartment.
  3. Place 2 known key fobs within the interior of the vehicle.
  4. Insert the vehicle key in the driver door lock cylinder located in the driver door handle and cycle the key 5 times within 5 seconds.
  5. The DIC will display a message: READY FOR FOB X (X = fob 2, 3, or 4).
  6. Place the new unknown key fob in the console fob pocket with the buttons facing forward.
  7. A beep will occur and the DIC will display: READY FOR FOB X or MAX FOBS LEARNED.
  8. If programming additional key fobs, repeat steps 5-6, or press the OFF/ACC portion of the ignition switch to exit programming mode.
  9. Operate the active portion of each key fob in order to verify correct system operation.

Method 2 - Service Programming System Fob Programming

This procedure is a 10-minute relearn procedure using the Techline Terminal with SPS software. A scan tool, Techline Terminal, and a replacement key fob are required to perform this procedure.

  1. Place the vehicle in the Vehicle On, Engine Off mode.
  2. Connect a scan tool to the vehicle.
  3. Insure that all power consuming devices are turned OFF on the vehicle.
  4. With a scan tool, select Request Info under Service Programming System and follow the scan tool on-screen instructions.
  5. Disconnect the scan tool from the vehicle and connect the scan tool to a Techline Terminal with the current Service Programming System (SPS) software.
  6. Turn the vehicle OFF.
  7. On the Techline Terminal, select Service Programming System and follow the Techline Terminal on-screen instructions. Ensure the correct programming procedure is selected based on component being replaced or programmed. See Important above.
  8. Disconnect the scan tool from the Techline Terminal and re-connect the scan tool to the vehicle.
  9. With a scan tool, select Program ECU under Service Programming System.
  10. At this point the scan tool must remain connected for the duration of the 10-minute relearn procedure.
  11. When the 10-minute relearn procedure has completed, using the scan tool, access the following: Vehicle Control Systems Computer/Integrating Systems Module Replacement/Setup RCDLR Program Key Fobs
  12. Select Fob X (X = 1, 2, 3, or 4) on the scan tool. This will be the slot you wish to program to.
  13. Place the replacement key fob in the console pocket with the buttons facing forward. A beep will occur indicating programming completion. The previously known fob is now erased.
  14. If programming additional key fobs, repeat steps 12-13, or press the OFF/ACC portion of the ignition switch to exit programming mode.
  15. Remove the scan tool.
  16. Operate the active portion of each key fob in order to verify correct system operation.

The keyless entry system is a vehicle entry device. The keyless entry system is used in conjunction with the door locks to unlock the vehicle. Keyless entry will lock/unlock a door or open the rear compartment lid when a corresponding button on the keyless entry transmitter is pressed. This is accomplished by the transmitter sending a radio frequency to the remote control door lock receiver (RCDLR). The RCDLR interprets the signal and activates the requested function via a serial data message. A low transmitter battery or radio frequency (RF) interference from aftermarket devices, such as 2-way radios, power inverters, computers, etc., may cause a system malfunction. High RF traffic areas, such as gas stations that use pay-at-the-pump RF transponders, may also cause interference that could lead to a malfunction. Keyless entry allows you to operate the following components

  1. The door locks
  2. The rear compartment lid release
  3. The illuminated entry lamps

The keyless entry system has the following components

  1. The #1-#4 keyless entry transmitters
  2. The headliner and console antennas
  3. The console active antenna
  4. The instrument panel module (IPM)
  5. The RCDLR

Keyless Entry Transmitters

The keyless entry transmitter are used to passively or actively lock and unlock the vehicle.

When any one of the 4 allowable programmed transmitters are challenged by a keyless entry antenna by operating either of the front exterior door handles, they will passively send a radio frequency (RF) signal to the remote control door lock receiver (RCDLR) via the door antennas; the RCDLR will then interpret this communication and either allow entry into the vehicle or deny it.

Keyless Entry Door Antennas

The keyless entry door antennas are used to transmit and receive radio frequency (RF) communications with the keyless entry transmitters.

The keyless entry door antennas are molded into the vehicles front left and front right exterior door handles. The antennas are serviced as part of the door handle assembly. The antennas are controlled by the remote control door lock receiver (RCDLR). When the exterior door handle is operated, the respective antennas sends out sends out a challenge to the keyless entry transmitter which begins the passive entry communications.

Headliner and Console Antennas

The keyless entry headliner and console antennas have a dual purpose. The antennas are used for both keyless entry and vehicle theft deterrent functions. In their keyless entry function, they are used to locate any keyless entry transmitters within the vehicle. In the antennas theft deterrent functions, they transmit and receive the needed communications with the keyless entry transmitter to enable vehicle starting.

The keyless entry headliner antenna is located under the vehicles headliner. The console antenna is located in the vehicle center console. The use of two antennas and the placement of the antennas is to ensure complete coverage of the vehicle interior. The antennas are controlled by the remote control door lock receiver (RCDLR). These antennas share a driver and are controlled simultaneously by the RCDLR. When the start button is pressed, both antennas send out an identical challenge to the keyless entry transmitter.

Console Active Antenna

The keyless entry console active antenna is located in the center console. It has a small pocket next to it where the key fob can be inserted if the key fobs battery is dead, weak or the radio frequency (RF) signal is being interrupted.

The purpose of the console active antenna is to send a low frequency RF challenge to a programmed key fob when the start button is pressed. The console active antenna is controlled by the remote control door lock receiver (RCDLR).

Remote Control Door Lock Receiver (RCDLR)

The remote control door lock receiver (RCDLR) is a multi-function module located in the upper passenger side of the dash panel. The RCDLR can be accessed by removing the upper dash pad. The RCDLR controls all the vehicles antennas for passive and active keyless entry, as well as vehicle theft deterrent and vehicle starting. The RCDLR will send an AC voltage signal and provide ground to the door handle antennas. This will enable the antennas to send out the low frequency broadcast challenge to a key fob in range.

The passive keyless entry allows you to enter a locked vehicle without pressing any button on the keyless entry transmitter. You must only have the transmitter with you. This passive system is also part of the vehicle starting system. It allows you to start and run the vehicle having only the transmitter as your key. The passive entry and starting system use low frequency antennas in 5 different areas on the vehicle to determine the location of the key fob to the vehicle. When passively opening a locked door, or a rear compartment lid, you must have a programed key fob with you in your pocket, purse, or briefcase. As a customer opens the door handle or rear compartment open pad, the low frequency antenna sends out a challenge to the keyless entry transmitter. The transmitter must be in a one meter range of the door or rear compartment lid that the customer is opening in order to receive the challenge. If the challenge from the low frequency antenna is met, the transmitter will respond, allowing the door to be unlocked and opened. Starting the vehicle also works in the same manner. The key fob must be within the passenger compartment of the vehicle when the Start/ACC/OFF button is pressed. The low frequency antenna sends a challenge to the transmitter and if the challenge is met, the transmitter will respond to the remote control door lock receiver (RCDLR). The RCDLR will then send out a fuel enable password to the engine control module (ECM). As long as all security requirements are met, and the ECM receives the password over the serial data line, the engine will start and run. A low transmitter battery or radio frequency (RF) interference from aftermarket devices, such as 2-way radios, power inverters, computers, etc., may cause a system malfunction. High RF traffic areas, such as gas stations that use pay-at-the-pump RF transponders, may also cause interference that could lead to a malfunction.

The passive keyless entry has the following components

  1. The keyless entry transmitters (up to 4 total)
  2. The RCDLR
  3. The LH door handle antenna, located within the LH front exterior door handle
  4. The RH door handle antenna, located within the RH front exterior door handle
  5. The console antenna, located in the passenger area, within the center console
  6. The headliner antenna, located in the passenger area, beneath the headliner
  7. The trunk antenna, located in the rear compartment area near the rear compartment lid latch
  8. The console active antenna, located inside the passenger compartment, within the center console

Starting the Vehicle/ACC mode

To start a vehicle you must have a valid keyless entry transmitter present within the passenger compartment of the vehicle, the brake pedal depressed, and the transmission in Park or Neutral. If there are no problems with key fob detection, the vehicle will be able to be started, or put into accessory mode, when the Start/ACC/OFF mode button is pressed. If a key fob is not detected, or the radio frequencies are being interrupted, a message will display on the driver information center (DIC) stating, NO FOB DETECTED. A NO FOB DETECTED message may be caused by a low transmitter battery or radio frequency (RF) interference from aftermarket devices, such as 2-way radios, power inverters, computers, etc. High RF traffic areas, such as gas stations that use pay-at-the-pump RF transponders, may also cause interference. A NO FOB DETECTED message caused by an aftermarket device or high RF traffic is considered normal and does not require the replacement of any components. Replacing components in these situations will typically not increase the performance of the system. Simply moving the fob to a different location inside the vehicle may allow key fob communication to continue. If moving the key fob within the vehicle does not correct the message, a pocket is located in the center console for the key fob to slide into. The key fob must be inserted into the pocket with the buttons facing toward the front of the vehicle. With the key fob inserted into the pocket correctly, a low frequency coupling will occur between the key fob and the console active antenna when the Start mode or ACC/OFF mode button is pressed. This will allow the vehicle to be operated in a normal fashion.

Vehicle ON Engine OFF mode

This mode is used to have all modules powered up and communicating on the serial data line. In order to achieve this mode the customer must have a valid keyless entry transmitter within the passenger compartment of the vehicle and the transmission in Park or Neutral. Once that criteria is met, the customer must press and hold the ACC/OFF portion of the Start/ACC/OFF mode button for 5 seconds. The vehicle will power up with the engine OFF. A low transmitter battery or radio frequency (RF) interference from aftermarket devices, such as 2-way radios, power inverters, computers, etc., may cause a system malfunction. High RF traffic areas, such as gas stations that use pay-at-the-pump RF transponders, may also cause interference that could lead to a malfunction.

Turning OFF the Vehicle

When a vehicle is in a normal run mode, the keyless entry transmitter should already be present within the passenger compartment. To switch the vehicle to OFF mode, press the ACC/OFF portion of the Start/ACC/OFF mode button and the vehicle will power OFF. For a vehicle to transition to the OFF mode the transmission must be placed in Park. If the transmission is not in Park when the vehicle is switched OFF, the ignition will remain in the RUN position. Should this occur, the vehicle will automatically switch to the OFF mode after approximately 10 minutes.

While in normal run mode if the transmitter is removed from the vehicle it will not stall; the vehicle will continue to run as normal. However, if the vehicle is attempted to be powered OFF with no key fob present, the driver information center (DIC) will display a message to the customer stating NO FOB, OFF or RUN. At this point, the customer has a final opportunity to continue to run the vehicle. Once a running vehicle is powered OFF without a key fob present, the vehicle will not be able to be restarted until a valid key fob is present. On a normal power OFF, if the customer is exiting the vehicle, and the key fob is left in the passenger compartment, the horn will chirp 3 times, alerting the customer that the key fob has been left in the vehicle. This feature can be turned On/Off through the DIC personalization. Refer to Personalization Description and Operation in Personalization.

Unlock Driver Door Only - Active

Momentarily press the transmitter UNLOCK button in order to perform the following functions

  1. Unlock only the driver door.
  2. Illuminate the interior lamps for a determined length of time, or until the ignition is turned ON.
  3. Flash the exterior lights, if selected ON in personalization.
  4. Disarm the Content Theft Deterrent (CTD) System, if equipped.
  5. Deactivate the CTD system when in the Alarm Mode.

Unlock Front Door Only - Passive

IMPORTANTThis feature can be turned ON or OFF through vehicle personalization. Refer to Vehicle Personalization (w/o Voice Recognition) or Vehicle Personalization (w/ Voice Recognition) in Personalization.

Approach either front door with a valid keyless entry transmitter to perform the following functions

  1. Unlock only the approached door when door handle is operated.
  2. Disarm the Content Theft Deterrent (CTD) System, if equipped.
  3. Deactivate the CTD system when in the Alarm Mode.

Unlock All Doors - Passive

IMPORTANTThis feature can be turned ON or OFF through vehicle personalization. Refer to Vehicle Personalization (w/o Voice Recognition) or Vehicle Personalization (w/ Voice Recognition) in Personalization.

Approach either front door with a valid keyless entry transmitter to perform the following functions

  1. Unlock all vehicle doors when the approached door handle is operated.
  2. Disarm the Content Theft Deterrent (CTD) System, if equipped.
  3. Deactivate the CTD system when in the Alarm Mode.

Lock All Doors - Active

Press the transmitter LOCK button to perform the following functions

  1. Lock all vehicle doors. Immediately turn off the interior lamps.
  2. Flash the exterior lights, if selected ON in personalization.
  3. Chirp the horn, if selected ON in personalization.
  4. Arm the Content Theft Deterrent (CTD) System.

Lock All Doors - Passive

With passive locking enabled in the driver information center (DIC) personalization, exit the vehicle with the keyless entry transmitter to perform the following functions

  1. Lock all vehicle doors.
  2. Flash the exterior lights, if selected ON in personalization.
  3. Chirp horn, is selected ON in personalization.
  4. Arm the Content Theft Deterrent (CTD) System.

If 2 keyless entry transmitters are within a vehicle and a single transmitter exits, the transmitter left within the vehicle will be ignored and the vehicle will be locked as normal. The transmitter left inside the passenger compartment will be ignored until a valid transmitter unlocks the vehicle again.

Rear Compartment Lid Release - Active

If the vehicle transaxle is in PARK or NEUTRAL and the ignition is in the OFF position, a single press of the transmitter rear compartment release button will open the rear compartment lid.

Rear Compartment Lid Release - Passive

Approach the rear of the vehicle with a valid keyless entry transmitter. Push the rear compartment open pad. The rear compartment lid will open and raise.

Any keyless entry transmitter left inside the truck will allow the trunk to be reopened at any time. This feature will not allow a customer to lock the transmitter in the trunk.

Remote Vehicle Start (RVS)

To operate the function, first press and release the lock button on the keyless entry transmitter, then immediately press the remote vehicle start (RVS) button for 2 seconds. The vehicle park lamps will be illuminated to indicate that the engine is running. The RVS function is allowed to start the vehicle 2 times for 10-minute intervals. If the remote control door lock receiver (RCDLR) receives a second request for an RVS event while already operating in RVS, then the first timer times out and then the second timer starts. If the RVS button was pressed for the first time, then 7 minutes later the RVS button was pressed a second time, the total time for the RVS event would be 17 minutes. When the RVS button is pressed for the second time, the first 10-minute interval automatically stops and the RCDLR starts counting the second 10-minute interval. After the first event times out, 10 minutes, the second event must be requested within 20 minutes, or the function is disabled.

RVS can be deactivated by pressing the RVS button on the keyless entry transmitter, pressing the hazard switch, or by pressing the ACC/OFF portion of the Start/ACC/OFF mode button. There are also other safety and security measures that will deactivate RVS, these include depressing the accelerator pedal or opening the hood. RVS may not function when DTCs are set. In these instances, the park lights will flash once when the RVS signal is received by the RCDLR, but the vehicle will not start.

RVS is designed to transition for RVS to normal engine run operation without any apparent change to the customer except entering the vehicle with a valid keyless entry transmitter and pressing the START button.

While in RVS mode all modules that are powered by the Run/Crank relay shall be active and understand that RVS is active. All on-board diagnostics (OBD) II functions shall also be active.

The RVS feature can be turned off through personalization on the DIC. Other RVS features may also be turned on or off via personalization. These include HVAC operation, rear defogger operation, and heated/ventilated seat operation. Refer to Vehicle Personalization (w/o Voice Recognition) or Vehicle Personalization (w/ Voice Recognition) in Personalization.

Disable RVS

To disable the remote vehicle start (RVS) function, perform the following steps

  1. Turn ON the ignition, with the engine OFF.
  2. Access the RVS personalization features within the driver information center (DIC).
  3. Disable the RVS feature.

The current state of RVS can be viewed through the DIC display under the Remote Start the display will read either enabled or disabled.

Enable RVS

To enable the remote vehicle start (RVS) function, perform the following steps

  1. Turn ON the ignition, with the engine OFF.
  2. Access the RVS personalization features within the driver information center (DIC).
  3. Enable the RVS feature.

The current state of RVS can be viewed through the DIC display under the Remote Start the display will read either enabled or disabled.

Hood Ajar Switch

The hood switch provides status of the hood to the rear integration module (RIM) for remote RVS functions. It is integrated into the hood latch assembly. The hood ajar switch provides 2 separate inputs to the RIM. When the hood is closed, the hood open switch signal circuit is approximately battery voltage and the hood closed switch signal circuit is open. When the hood is opened, the hood open switch signal circuit is open and the hood closed switch signal circuit is approximately battery voltage.

Keyless Entry Personalization

Vehicle lock/unlock functions and remote vehicle start (RVS) settings may be personalized for 2 separate drivers as part of the remote activation verification feature. For mode descriptions and programming instructions, refer to Vehicle Personalization (w/o Voice Recognition) or Vehicle Personalization (w/ Voice Recognition) in Personalization.

Rolling Code

The keyless entry system uses rolling code technology. Rolling code technology prevents anyone from recording the message sent from the transmitter and using the message in order to gain entry to the vehicle. The term "rolling code" refers to the way that the keyless entry system sends and receives the signals. The transmitter sends the signal in a different order each time. The transmitter and the remote control door lock receiver (RCDLR) are synchronized to the appropriate order. If a programmed transmitter sends a signal that is not in the order that the RCDLR expects, then the transmitter is out of synchronization. This occurs after 256 presses of any transmitter button when it is out of range of the vehicle.

Automatic Synchronization

The keyless entry transmitters do not require a manual synchronization procedure. If needed, the transmitters automatically resynchronize when any button on the transmitter is pressed within range of the vehicle. The transmitter will operate normally after the automatic synchronization.