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Battery Electrical Drain/Parasitic Load Test

12 V Battery

The following procedure is for the 12 V battery only.

Diagnostic Instructions

    • Perform the Diagnostic System Check - Vehicle prior to using this diagnostic procedure.
    • Review Strategy Based Diagnosis for an overview of the diagnostic approach.
    • Diagnostic Procedure Instructions provides an overview of each diagnostic category.

Circuit/System Description

Components most likely to cause a parasitic draw on the vehicles battery are switches, relays, and control modules. After the vehicle is turned OFF the control modules will begin to go to sleep (shut OFF). All control modules do not go to sleep at the same time, some may take up to 30 min or longer after turning the Vehicle OFF before going to sleep, like the HVAC and body control modules. Others such as the telematics communication interface control module and remote control door lock receiver may periodically wake up then go back to sleep. These are all normal conditions.

Diagnostic Aids

    • Rule out any possible aftermarket equipment causing an unacceptable parasitic current drain. Aftermarket accessories installed into the courtesy lamp circuit can cause the inadvertent power timer in the body control module (BCM) to keep resetting. This may cause the BCM to remain awake and cause a current drain on the battery.
    • Rule out customer driving habits such as regular short trips that do not allow enough time to properly charge the battery. Refer to Battery Description and Operation .
    • Verify that the battery and charging system are in proper working order. Refer to Battery Charging and Charging System Test .
    • A battery discharging for no apparent reason while the vehicle is parked can be caused by an intermittent draw, such as a module waking up, or a continuous draw, such as a interior light or stuck relay.
    • Some systems and modules such as OnStar®, and regulated voltage control, if equipped, are designed to wake up, perform a task, and go back asleep at regular intervals. Refer to Body Control System Description and Operation for the system or modules description and operation.
    • An engine off natural vacuum evaporative test can occur if the engine control module (ECM) determines the drive cycle has met the appropriate criteria immediately after key off. The ECM will stay awake and the vent solenoid will stay energised for as long as 45 min. The typical current draw for this is about 1 A.
    •  The telematics communication interface control module current draw is very low, less than 40 mA, so the OnStar system is left in that "awake" state for up to the first 48 h. Parasitic draw of up to 40 mA with an occasional spike as high as 80 mA through the telematics communication interface control module for the first 48 h is normal.
    • Some automatic climate control systems can remain in a semi awake state for up to 3 h, actual draw amounts vary by vehicle platform but are typically not greater than 50 mA.
    • An extremely low mA current level is consumed by the remote keyless entry receiver for monitoring purposes, actual system wake up only occurs when the fobs for the vehicle are used. When other devices on the same remote keyless entry operating frequency are activated, such as the 4 tire pressure monitoring sensors and other vehicle transmitters in the vicinity, the remote keyless entry receiver will have a 100 mA spike. These spikes are normal and occur too briefly to have a significant effect on battery drain. Competing signals may cause remote keyless entry performance issues such as jamming but should not cause excessive battery draw.
    • If an excessive current draw is not present during initial testing, continue periodic testing over a 2 h period to see if the current draw increases and stays above an unacceptable level.

       Note: The battery specification listed below is a generic specification, use manufacturer specifications when testing the battery.

    • The battery run down time will vary depending on the batteries reserve capacity. If the reserve capacity is higher, then the battery run down time may be longer. If the reserve capacity is lower, then the battery run down time may be shorter. The graph below indicates roughly how many days a 690 cold cranking amperage battery with a 110 min reserve capacity starting at 80 percent state of charge will last with a constant current draw until it reaches 50 percent state of charge. Differences in battery reserve capacity and temperature will affect the results.

Current Drain

Days

25 mA

33

50 mA

16.5

75 mA

11

100 mA

8.25

250 mA

3.3

500 mA

1.65

750 mA

1

1 A

0.8

2 A

0.4

Reference Information

Schematic Reference

Control Module References

Connector End View Reference

Component Connector End Views

Electrical Information Reference

    •  Circuit Testing
    •  Testing for Intermittent Conditions and Poor Connections
    •  Connector Repairs
    •  Wiring Repairs

Scan Tool Reference

Control Module References for scan tool information

Special Tools

EL 38758 Parasitic Draw Test Switch

For equivalent regional tools, refer to Special Tools .

Circuit/System Verification

Note: 

   • Most vehicle systems will go to sleep within 30 min but it can take up to 2 h before all systems power down allowing the parasitic draw test to pass. An occasional increase in the parasitic draw is normal as long as it returns within 1 s.
   • Closing the door latches/ajar switch while leaving the doors open is recommended, this allows the vehicle systems to perform in a "doors closed" mode while allowing vehicle interior access that may be needed to complete the diagnostic steps.
   • Locking doors will arm the vehicle content theft deterrent system if equipped. Failure to arm the system may cause a theft system fault to not be present during testing.
   • There are many things that can prevent the vehicle from completely going to sleep and passing the parasitic draw test. Make sure all the conditions listed below are met before performing the parasitic current draw test.
      - Vehicle OFF
      - Retained Accessory Power OFF - open and close the driver door after Vehicle OFF
      - Scan tool not communicating with a vehicle control module - in some cases it may need to be disconnected from the data link connector.
      - All access doors closed
      - Headlamps OFF - auto headlamps disabled
      - Any delay lighting OFF
      - If equipped with an under bonnet lamp disable it
      - HVAC after blow OFF
      - Any accessory that can work with Vehicle OFF inactive or OFF
      - Wait up to 2 min or longer, after all other listed conditions are met

Using an Inductive Pickup Probe

  1. Connect an inductive pickup probe to the negative battery cable that can read down to 1 mA.
  2. Vehicle OFF, as the vehicle systems shut down test for less than 30 mA of parasitic current drain.
  3. If greater than the specified range, refer to Circuit/System Testing.

Using the EL 38758 Parasitic Draw Test Switch

    Warning: Refer to Battery Disconnect Warning in the Preface section.

    Caution: When a fused jumper wire or digital multimeter is connected to the test switch terminals, always turn the test switch ON before opening any access door, turning the ignition on, or turning any accessory on. This is to prevent damaging the jumper wire or digital multimeter fuse.

    Note: The switch knob on the EL 38758 switch is marked ON and OFF. When the switch knob is in the ON position, the circuit is closed and electrical current will pass through the switch. When the switch knob is in the OFF position, the circuit is open and electrical current will not pass through the switch.

  1. Vehicle OFF, disconnect the battery negative cable from the battery. Refer to Battery Negative Cable Disconnection and Connection .
  2. Turn the EL 38758 switch knob to the OFF position.
  3. Install the male end of the EL 38758 switch to the battery ground terminal.
  4. Install the battery negative cable to the female end of the EL 38758 switch.
  5. Turn the EL 38758 switch knob to the ON position.
  6. Road test the vehicle and activate all of the accessories such as the radio and air conditioning.
  7. Vehicle OFF, connect a 10 A fused jumper wire to the test switch tool terminals.
  8. Turn the EL 38758 switch knob to the OFF position. The current now flows through the jumper wire.
  9. Check the fuse in the jumper wire. The fuse should be OK.
  10. Failed: If the jumper wire fuse is blown, refer to Circuit/System Testing.
    ⇓   Passed
  11. Turn the EL 38758 switch knob to the ON position. Remove the fused jumper wire.
  12. Connect a digital multimeter set to the 10 A DC scale between the test switch tool terminals.
  13. Turn the EL 38758 switch knob to the OFF position. The current now flows through the DMM.
  14. As the vehicle systems shut down test for less than 30 mA of parasitic current drain.
  15. If greater than the specified range, refer to Circuit/System Testing.

Circuit/System Testing

Note: 

   • Removing or installing a fuse, relay, or connector, to determine the area causing high parasitic draw may wake up control modules. You must wait for the control modules to go back to sleep before retesting. It is best to install any removed or disconnected components after the diagnosis is completed.
   • Fuses for power mode master components such as the BCM should be removed last to avoid misdiagnosis.
   • If a scan tool is connected to the DLC, either disconnect it or subtract the scan tool current draw from the DMM reading to get the actual vehicle parasitic current draw.

If the vehicle has an unacceptable amount of parasitic current draw, remove each fuse one at a time until the current draw falls to an acceptable level. A drop of more than 10-20 mA, when disabling a single system or circuit, is an indication of an overly high current draw that could be causing the battery drain. Refer to Power Distribution Schematics to diagnose exactly which circuit of the suspect system is causing the high parasitic drain. The follow is a list of common components that could cause a high current draw:

    • Stuck switch
    • Stuck relay
    • Control module

Repair Instructions

Perform the Diagnostic Repair Verification after completing the diagnostic procedure.

Control Module References for control module replacement, programming and setup

   


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