TEST 2: Verifying The 12 Volt Start Signal
Now that you've confirmed that if you apply 12 Volts directly to the S terminal, the starter motor will activate and crank the engine, in this test section, we'll verify the presence of the 12 Volts activation signal from the ignition switch.
This is a very easy test to perform and lets us know immediately if the starter motor is receiving an activation signal.
These 12 Volts should only be present in the wire when the ignition key is turned to the START position.
NOTE: You can perform this test with the S wire connected or disconnected to the S terminal.
These are the test steps:
- 1
Raise and place the front of the vehicle on jack stands (if it isn't already).
- 2
Place your multimeter in Volts DC mode.
- 3
Ground the black multimeter test lead directly on the negative (-) battery terminal using a jump start cable.
You can also Ground it on the engine, if you can find a clean, unpainted and rust-free spot of metal. - 4
Connect the red multimeter test lead to the S terminal wire using an appropriate tool.
Don't know which wire is the S terminal wire? It's the one that connects to the smaller of the three studs on the starter motor solenoid.
The S terminal wire (circuit) is the one that delivers the Start (Crank) signal from the ignition switch. - 5
Have your helper turn the key to crank the engine when the test is setup.
- 6
Your multimeter should read 10 to 12 Volts DC.
OK, let's take a look at your test result:
CASE 1: The wire is delivering 10 to 12 Volts when you turn the key to crank the engine. This is the correct test result and confirms that the starter motor is receiving an activation signal.
Your next and final test is: TEST 3: Voltage Drop Testing The Battery (+) Cable.
CASE 2: The wire IS NOT delivering 10 to 12 Volts when you turn the key to crank the engine. This test result confirms the starter motor isn't receiving an activation signal. Without it, the starter motor will not activate and crank the engine.
The missing starter motor activation signal is most likely caused by one of the following issues:
- A bad starter motor relay (if equipped).
- A bad park-neutral safety switch (automatic transmission).
- A bad clutch pedal switch (manual transmission).
- A bad ignition switch.
- An anti-theft system fault.
Although it's beyond the scope of this tutorial, your next step is to find the cause of the missing activation signal and resolve the issue.
TEST 3: Voltage Drop Testing The Battery (+) Cable
The starter motor requires an enormous amount of electrical current to start the engine and as you probably already know, this current comes from the battery.
The wire that supplies battery current to the starter motor is the wire that connects to the largest stud on the starter motor solenoid.
It is not uncommon for this cable to develop corrosion at its connector ends. Some of this corrosion is easily visible, but some can be hidden.
In any case, any type of corrosion will result in a voltage drop in the cable, preventing all available battery current from reaching the starter motor.
We can easily check if hidden corrosion is causing a problem by performing a multimeter voltage drop test on the cable.
If your multimeter reports a voltage drop of 5 Volts or more, you can conclude that the cable's terminal ends have a corrosion problem or are loose.
These are the test steps:
- 1
Place your multimeter in Volts DC mode.
- 2
Attach the red multimeter test lead to the positive (+) battery post. The positive (+) battery post must be clean and corrosion-free.
You may need two helpers for this test step, since someone will have to hold the red multimeter test lead onto the battery positive (+) terminal bolt and someone else inside the vehicle (to crank it when everything is set up). - 3
Place the black multimeter test lead on the starter motor solenoid stud that connects to the battery positive (+) cable (see illustration above).
The orange arrow with the plus (+) sign, in the illustration above, points to this stud.
Maintain the black multimeter test lead in this position throughout the next step. - 4
When everything is ready, have your helper turn the key to crank the engine.
Although the starter motor won't crank the engine, your helper has to turn the ignition switch to start the engine for the voltage drop test to work. - 5
The multimeter should register 0.5 Volts or less (0.5 V = 0 Volts).
If there's a problem in the wire, your multimeter will register some voltage, usually 5 Volts or more.
Let's interpret your test result:
CASE 1: Your multimeter indicated NO voltage drop (0.5 Volts or less). This is the correct test result, and it confirms the starter motor is receiving all of the battery voltage and amperage it needs to crank the engine.
You can conclude that the starter motor is bad and needs replacement if you have:
- Confirmed that the starter motor does not crank the engine when you directly apply 12 Volts to the starter's S terminal (TEST 1).
- Confirmed, in this test section, that the battery positive (+) cable does not have a voltage drop issue.
Now, before you remove the starter motor, do two more important things:
- Confirm the starter motor is receiving an activation signal. TEST 2 will help you with this.
- Check that the engine is NOT mechanically locked up by manually turning it via its crankshaft pulley bolt (using a 1/2" ratchet and the appropriate size socket).
If you'd like to bench-test the starter motor (after removing it). You can find the step-by-step instructions here:
CASE 2: Your multimeter registered 5 Volts or more. This result confirms that the starter's battery (+) cable has corrosion on one or both terminal ends.
The issue causing the voltage drop in the cable will prevent the battery's total amperage output from reaching the starter motor.
Your next step is thoroughly cleaning both ends of the battery positive (+) cable with a small piece of sandpaper.
Eliminating the cause of the voltage drop should get the starter motor to crank the engine.
More 2.8L V6 Chevrolet S10 Pickup, GMC S15 Pickup Tutorials
You can find a complete list of 2.8L V6 Chevrolet S10 pickup, GMC S15 pickup, and GMC Sonoma diagnostic tutorials in this index:
Here's a sample of the articles, you'll find in the Index of Articles:
- How To Test The MAP Sensor With A Multimeter (2.8L Chevy S10, GMC S15).
- Vacuum Hose Routing Diagram 1988 GM 2.8L S10/S15.
- How To Test For A Bad Alternator (2.8L V6 S10/S15).
- How To Test Engine Compression (2.8L S10 Pickup/Blazer).
If this info saved the day, buy me a beer!
