DTC C1216 Brake Control Relay Coil Circuit Open. Oldsmobile Cutlass 1998

For 1990-2009 cars only

Makes 🢒 Oldsmobile 🢒 1998 🢒 Cutlass 🢒 Brakes 🢒 Antilock Brake System 🢒 DTC C1216 Brake Control Relay Coil Circuit Open

ABS Components
Antilock Brake System Schematics

Circuit Description

Ignition voltage is supplied to terminal 86 of the Electronic Brake Control Relay. The above condition enables the EBCM to energize the pullin coil by completing the ground circuit at connector terminal 2 of the EBCM. The magnetic field created closes the Electronic Brake Control Relay contacts. The magnetic field also allows battery voltage and current through the Electronic Brake Control Relay terminal 30 to be supplied to the EBCM through connector terminal C. Connector terminal C supplies power to the EBCM, which supplies power to the motors and solenoids.

Conditions for Setting the DTC

•

DTC 1216 can set anytime after the Electronic Brake Control Relay is commanded ON. This test detects an open in the Electronic Brake Control Relay coil circuit. An open in this circuit will not allow the Electronic Brake Control Relay to be energized thus preventing power to the motors and solenoids.

•	A DTC C1286 will be set with DTC C1216 if the rear channel is not expected to be in the home position.

Action Taken When the DTC Sets

•	A malfunction DTC stores.

•	The ABS disables.

•	The ABS warning indicator(s) turns ON.

Conditions for Clearing the DTC

•	The condition responsible for setting the DTC no longer exists and the Scan Tool Clear DTCs function is used.

•	100 drive cycles pass with no DTCs detected. A drive cycle consists of starting the vehicle, driving the vehicle over 16 km/h (10 mph), stopping and then turning the ignition OFF.

Diagnostic Aids

The following conditions may cause an intermittent malfunction:

•	A poor connection

•	Rubbed-through wire insulation

•	A broken wire inside the insulation

Use the enhanced diagnostic function of the Scan Tool in order to measure the frequency of the malfunction.

If the frequency of the malfunction is high, but is currently intermittent, inspect for high coil resistance. Use a J 39200 in order to measure for high coil resistance by measuring between Electronic Brake Control Relay terminal 85 and terminal 86. If the resistance shows greater than 95 ohms, replace the Electronic Brake Control Relay.

Thoroughly inspect any circuitry that may be causing the intermittent complaint for the following conditions:

•	Backed out terminals

•	Improper mating

•	Improperly formed or damaged terminals

•	Poor terminal-to-wiring connections

•	Physical damage to the wiring harness

Clear the DTCs after completing the diagnosis. Test drive the vehicle for three drive cycles in order to verify that the DTC does not reset. Use the following procedure in order to complete one drive cycle:

Start the vehicle.
Drive the vehicle over 16 km/h (10 mph).
Stop the vehicle.
Turn the ignition switch to the OFF position.

Step

Action

Value(s)

Yes

Important: ZeroJ 39200 test leads before making any resistance measurements. Refer to J 39200 user's manual.

Was the Diagnostic System Check performed?

Go to Step 2

Go to Diagnostic System Check

Turn the ignition switch to the OFF position.
Install a Scan Tool .
Turn the ignition switch to the RUN position.

Do not start the engine.

Use the Relay Test function of the Scan Tool in order to command the electronic brake control relay on.

Does the Scan Tool indicate that the electronic brake control relay is on, and is the voltage equal to or greater than the specified voltage?

10 V

Go to Step 23

Go to Step 3

Use the J 39200 in order to measure the voltage between the electronic brake control relay connector terminal 85 and ground.

Is the voltage equal to or greater than the specified voltage?

10 V

Go to Step 4

Go to Step 9

Use the J 39200 in order to measure the voltage between the electronic brake control relay connector terminal 86 and ground.

Is the voltage equal to or greater than the specified voltage?

10 V

Go to Step 5

Go to Step 13

Turn the ignition switch to the OFF position.
Disconnect the EBCM connector.
Turn the ignition switch to the RUN position.

Do not start the engine.

Use the J 39200 in order to measure the voltage between the EBCM connector terminal 2 and ground.

Is the voltage equal to or greater than the specified voltage?

10 V

Go to Step 6

Go to Step 7

Turn the ignition switch to the OFF position.
Inspect the following components:

•	The EBCM connector terminal 2

•	The remaining terminals of the EBCM connector

Inspect the above components for the following conditions:

•

Damage

•	Poor terminal contact

•	Terminal corrosion

Are there signs of poor terminal contact, corrosion, or damaged terminals?

Go to Step 17

Go to Step 8

Remove the electronic brake control relay.
Use the J 39200 in order to measure the resistance between the EBCM connector terminal 2 and the electronic brake control relay connector terminal 85.

Is the resistance within the specified range?

0-2 ohms

Go to Step 8

Go to Step 18

Reconnect the EBCM connector.
Reconnect the electronic brake control relay, if the electronic brake control relay is disconnected.
Turn the ignition switch to the RUN position.

Do not start the engine.

Use the Scan Tool in order to read the DTCs.

Does DTC C1216 set as current DTC?

Go to Step 22

Go to Step 23

Turn the ignition switch to the OFF position.
Remove the ICC IGN Fuse (10A) from the fuse block.
Turn the ignition switch to the RUN position.

Do not start the engine.

Use the J 39200 in order to measure the voltage between the fuse block terminal and ground.

Is the voltage equal to or greater than the specified range?

10 V

Go to Step 10

Go to Step 16

Remove and inspect the ICC IGN Fuse (10A).

Is the fuse open?

Go to Step 12

Go to Step 11

Turn the ignition switch to the OFF position.
Use the J 39200 in order to measure the resistance between the electronic brake control relay connector terminal 86 and the fuse block terminal.

Is the resistance within the specified range?

0-2 ohms

Go to Step 23

Go to Step 15

Turn the ignition switch to the OFF position.
Disconnect the EBCM connector.
Use the J 39200 in order to measure the resistance between the EBCM harness connector terminal 4 and ground.

Is the resistance equal to the specified value?

OL (Infinite)

Go to Step 20

Go to Step 19

Disconnect the electronic brake control relay.
Use the J 39200 in order to measure the resistance between the electronic brake control relay terminal 85 and the electronic brake control relay terminal 86.

Is the resistance within the specified range?

65-95 ohms

Go to Step 14

Go to Step 21

Inspect the electronic brake control relay connector for the following conditions:

•

Damage

•	Poor terminal contact

•	Terminal corrosion

Are there signs of damage, poor terminal contact, or terminal corrosion?

Go to Step 17

Go to Step 23

Repair the open or high resistance in CKT 139.

Is the repair complete?

Go to Diagnostic System Check

Repair the open or high resistance in the following circuits and components:

•

CKT 1

•

CKT 3

•

CKT 242

•	The ignition switch

•	The IGN Fuse.

Refer to Power Distribution Schematics in Wiring Systems.

Is the repair complete?

Go to Diagnostic System Check

Replace all of the terminals that display signs of poor terminal contact, corrosion, or damaged terminal(s).

If the electronic brake control relay displays signs of corrosion, replace the electronic brake control relay. Refer to Electronic Brake Control Relay Replacement .

Is the repair complete?

Go to Diagnostic System Check

Repair the open or high resistance in CKT 1632.

Is the repair complete?

Go to Diagnostic System Check

Repair the short to ground in CKT 139.

Is the repair complete?

Go to Step 20

Replace the fuse block ICC IGN Fuse (10A) with a known good fuse.

Is the repair complete?

Go to Diagnostic System Check

Replace the electronic brake control relay. Refer to Electronic Brake Control Relay Replacement .