J 38758 Parasitic Draw Test Switch
• | Be sure to rule out any possible obvious influences, such as customer error or aftermarket equipment. |
• | Customer driving habits, such as regular short trips. This does 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 dome light or stuck relay. |
• | Some systems and modules such as OnStar®, and regulated voltage control (RVC), 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. |
• | Remote keyless entry (RKE) will wake up due to an outside input. Refer to Keyless Entry System Description and Operation for the system description and operation. |
Important: The battery specification listed below is a generic specification. Refer to Battery Usage when testing the battery. |
• | The battery run down time will vary depending on cold cranking amperage (CCA) and reserve capacity (RC). If the CCA and RC are higher, then the battery run down time would be longer. If the CCA and RC are lower, then the battery run down time would be shorter. The graph below indicates roughly how many days a 690 CCA battery with at 110 min. RC (60.5 AH) 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 rating and temperature will affect the results. |
Current Drain | Days |
---|---|
25 mA | 30.5 |
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 |
Caution: Refer to Battery Disconnect Caution in the Preface section.
Notice: Do not turn the parasitic draw test switch to the OFF position with the engine running. Damage will occur to the vehicle's electrical system.
Notice: The test switch must be in the ON position when removing the fuses in order to maintain continuity in the electrical system. This avoids damaging the digital multimeter due to accidental overloading, such as a door being opened to change a fuse.
Important: The test switch on the J 38758 is marked ON and OFF. When the test switch is in the ON position, the circuit is closed and electrical current will pass through the switch. When the test switch is in the OFF position, the circuit is open and electrical current will not pass through the switch.
15.1. | When there is a current reading of 2 A or less, turn the J 38758 test switch to the ON position. The electrical current will now pass through the switch. |
15.2. | Then switch the digital multimeter down to the 2 A scale for a more accurate reading when the J 38758 test switch is turned OFF. |
18.1. | Divide the reserve capacity by 4, amp hour rating by 2.4. |
18.2. | Compare this to the multimeter milliampere reading taken in the previous step. The parasitic current drain should not exceed this number. Example: If a battery has a reserve capacity of 100 minutes, (60 A/H) the current drain should not exceed 25 mA. |
19.1. | Using the MIN/MAX function of the digital multimeter, monitor the parasitic drain overnight or during the day. This will determine if something has been activated during that time frame. |
Notice: The test switch must be in the ON position when removing the fuses in order to maintain continuity in the electrical system. This avoids damaging the digital multimeter due to accidental overloading, such as a door being opened to change a fuse. |
Important: Removing fuses, relays, and connectors to determine the failure area may wake up modules. You must wait for these modules to go to sleep or use the sleep function on the scan tool. |
19.2. | When the vehicle has an unacceptable amount of parasitic current drain, remove each fuse one at a time until the current drain falls to an acceptable level. This will indicate which circuit is causing the drain. Refer to Power Distribution Schematics to diagnose exactly which part of the suspect circuit is causing the parasitic drain. In some cases a non-fused circuit or component, such as a relay, is the cause of excessive parasitic current drain. |
19.3. | Repeat the parasitic current drain test procedure after any repair has been completed to make sure that the parasitic current drain is at an acceptable level. |
19.4. | When the cause of the excessive current drain has been located and repaired, remove the J 38758 . |
Caution: Batteries produce explosive gases, contain corrosive acid, and supply levels
of electrical current high enough to cause burns. Therefore, to reduce the risk of
personal injury when working near a battery:
• Always shield your eyes and avoid leaning over the battery whenever possible. • Do not expose the battery to open flames or sparks. • Do not allow the battery electrolyte to contact the eyes or the skin.
Flush immediately and thoroughly any contacted areas with water and get medical help. • Follow each step of the jump starting procedure in order. • Treat both the booster and the discharged batteries carefully when using
the jumper cables.
Small current drains, called parasitic drains, constantly draw current from the battery even with the ignition switch in the OFF position. These parasitic drains can discharge a battery in 4-6 weeks depending on the battery's state of charge and when the vehicle went into storage.
For normal parasitic current drain, refer to individual component parasitic loads. Remember, when checking for parasitic current draw, take a look to see what types of equipment the customer may have had installed on the vehicle. A cellular phone, anti-theft system, or any device added that requires constant voltage to retain a memory, will draw current at all times. So take these added accessories into account when testing for parasitic current drain.
The parasitic load test device (SA9130Z) is used with a DMM. The test device is used to measure parasitic current drain from the battery with the ignition and all accessories OFF. The load tester, constructed with 1 ohm resistance and built-in circuit protection device, opens when the current exceeds approximately 1 amp. When the circuit is opened, the user is alerted by a red light-emitting diode (LED) indicator. The parasitic load test device is put into the circuit between the negative battery terminal and the negative battery cable so it effectively becomes a load in series with all other vehicle loads.
Important: The ignition key must be removed from the cylinder before parasitic load testing. The key-minder circuit is activated by the key cylinder switch when the key is in the ignition cylinder, which adds 20 mA of current draw.
Important: The alligator clamp on the parasitic load test device must be connected to the flat pad part on the negative battery cable. Do not connect the alligator clamp to the bolt on the negative battery cable. This will cause incorrect readings.
Typical parasitic load for this vehicle is 10-15 mA. If the vehicle does not have one of the following components, then subtract the parasitic load of the component for typical parasitic load of the vehicle (10-15 mA) to determine the parasitic load range for the vehicle being tested.
ABS | 1.0 mA |
BCM | 3.0 mA |
CD Changer | 3.0 mA |
ECM/PCM/TCM | 0-1.0 mA |
Generator | 0-1.0 mA |
HVAC Delayed Blower Control | 1.0 mA |
I/P Cluster w/Security Flashing "Security" Telltale | 1.2 mA |
On-Star | 0-1.0 mA |
Radio | 2.8-4.3 mA |
Important: During CD changer initialization, parasitic current draw will fluctuate between 3 mA to 1 A. The initialization period lasts up to a maximum of 90 seconds. After initialization, the CD changer parasitic current draw will stabilize at approximately 3 mA.
If the CD changer door is open and the light is illuminated, the parasitic current draw will be approximately 65 mA. The light will remain ON for 2 minutes. After the light goes out, the CD changer parasitic current draw will stabilize at approximately 3 mA.
• | Park lamps ON |
• | Headlamps ON |
• | Dome lamp ON |
• | Map lights ON |
• | Cargo lamp ON |
• | Radio ON |
• | Cigar lighter ON |