BRAKE CONTROL / DYNAMIC CONTROL SYSTEMS: ELECTRONICALLY CONTROLLED BRAKE SYSTEM (for HV Model): C1311,C1312; Open Circuit in Main Relay 1; 2019 - 2022 MY Avalon HV [04/2018

Last Modified: 08-21-2023	6.11:8.1.0	Doc ID: RM100000001ANJL
Model Year Start: 2019	Model: Avalon HV	Prod Date Range: [04/2018 - ]
Title: BRAKE CONTROL / DYNAMIC CONTROL SYSTEMS: ELECTRONICALLY CONTROLLED BRAKE SYSTEM (for HV Model): C1311,C1312; Open Circuit in Main Relay 1; 2019 - 2022 MY Avalon HV [04/2018 - ]

DTC

C1311

Open Circuit in Main Relay 1

DTC

C1312

Short Circuit in Main Relay 1

DESCRIPTION

The main relay supplies power to the switching solenoid and the linear solenoid.

The main relay remains on for approximately 2 minutes after the power switch is turned off and the input of brake pedal operation signals stops, and supplies power to the system to keep it ready to operate.

DTC No.	Detection Item	INF Code	DTC Detection Condition	Trouble Area	MIL	Note
C1311	Open Circuit in Main Relay 1	1	Either of the following is detected: When the power switch is on (READY): The BS terminal voltage is less than 3.5 V for 0.05 seconds or more, when the IG1 terminal voltage is 9.5 V or more and operation of the main relay is requested. When the power switch is off: The BS terminal voltage is less than 3.5 V for 0.05 seconds or more, when operation of the main relay is requested.	Open or short in main relay circuit Skid control ECU (brake booster with master cylinder assembly)	Comes on	INF Code 1: SAE Code C12FA Electronically controlled brake system DTC
C1312	Short Circuit in Main Relay 1	2	The BS terminal voltage is 3.5 V or more for 4.5 seconds or more, when operation of the main relay is requested.	Short in main relay circuit Main relay internal stuck Skid control ECU (brake booster with master cylinder assembly)	Comes on	INF Code 2: SAE Code C12FB Electronically controlled brake system DTC

MONITOR DESCRIPTION

The skid control ECU (brake booster with master cylinder assembly) monitors the voltage at BS terminal.

When the main relay is instructed to be on and the voltage at BS terminal is within the range of an open circuit malfunction (voltage is practically equal to that when off), or when the main relay is instructed to be off and the voltage of the BS terminal is within the range of a short circuit malfunction (voltage is practically equal to that when on), an open circuit or short circuit is judged respectively and the MIL is illuminated and stores a DTC.

MONITOR STRATEGY

Related DTCs	C12FA: Main relay circuit low C12FB: Main relay circuit high
Required Sensors/Components(Main)	Skid control ECU (brake booster with master cylinder assembly)
Required Sensors/Components(Related)	Skid control ECU (brake booster with master cylinder assembly)
Frequency of Operation	Continuous: C12FA (Case 1) and C12FB (Case 1) During initial checking: C12FA (Case 2) and C12FB (Case 2)
Duration	0.054 seconds: C12FA (Case 1) 0.2 seconds: C12FA (Case 2) 2 seconds: C12FB (Case 2) 4.5 seconds: C12FB (Case 1)
MIL Operation	Immediately
Sequence of Operation	None

TYPICAL ENABLING CONDITIONS

C12FA (Case 1)

Monitor runs whenever the following DTCs are not stored	None
All of the following conditions are met	A, B and C
A. Skid control ECU (brake booster with master cylinder assembly) state	Normal
B. Command to main relay	On
C. Either of the following conditions is met	a or b
a. Both of the following conditions are met	-
Power switch	Off
Brake system voltage 1 (VM1)	Higher than 6.92 V
b. All of the following conditions are met	-
Power switch	On (READY)
Brake system voltage 1 (VM1)	Higher than 6.92 V
IG1 voltage	Higher than 9.54 V

C12FA (Case 2)

Monitor runs whenever the following DTCs are not stored	None
All of the following conditions are met	-
Skid control ECU (brake booster with master cylinder assembly) state	Initial check
Command to main relay	On
Brake system voltage 1 (VM1)	Higher than 6.92 V

C12FB (Case 1)

Monitor runs whenever the following DTCs are not stored	None
Both of the following conditions are met	-
Skid control ECU (brake booster with master cylinder assembly) state	Normal
Command to main relay	Off

C12FB (Case 2)

Monitor runs whenever the following DTCs are not stored	None
Both of the following conditions are met	-
Skid control ECU (brake booster with master cylinder assembly) state	Initial check
Command to main relay	Off

TYPICAL MALFUNCTION THRESHOLDS

C12FA (Case 1 and 2)

Power supply for linear solenoid

Less than 3.5 V

C12FB (Case 1 and 2)

Power supply for linear solenoid

3.5 V or more

COMPONENT OPERATING RANGE

C12FA

All of the following conditions are met	-
Skid control ECU (brake booster with master cylinder assembly) state	Normal
Command to main relay	On
Brake system voltage 1 (VM1)	Higher than 6.92 V
Power supply for linear solenoid	3.5 V or more

C12FB (Case 1)

All of the following conditions are met	-
Skid control ECU (brake booster with master cylinder assembly) state	Normal
Command to main relay	Off
Power supply for linear solenoid	Less than 3.5 V

C12FB (Case 2)

All of the following conditions are met	-
Skid control ECU (brake booster with master cylinder assembly) state	Initial check
Command to main relay	Off
Power supply for linear solenoid	Less than 3.5 V

CONFIRMATION DRIVING PATTERN

Connect the Techstream to the DLC3.
Turn the power switch on (IG).
Turn the Techstream on.
Clear the DTCs (even if no DTCs are stored, perform the clear DTC procedure).
Turn the power switch off.
Turn the power switch on (IG).
Turn the Techstream on.
Wait 4.5 seconds.
Enter the following menus: Chassis / ABS/VSC/TRAC / Trouble Codes.
Read the DTCs.
HINT:
- If a DTC is output, the system is malfunctioning.
- If a DTC is not output, perform the following procedure.
If the DTCs are not output, perform a universal trip and check for permanent DTCs.
Click here
HINT:
- If a permanent DTC is output, the system is malfunctioning.
- If no permanent DTCs are output, the system is normal.

WIRING DIAGRAM

Refer to DTC C1241.

Click here

CAUTION / NOTICE / HINT

NOTICE:

After replacing the brake booster with master cylinder assembly, perform linear solenoid valve offset learning, ABS holding solenoid valve learning, yaw rate and acceleration sensor zero point calibration and system information memorization after performing "Reset Memory".
Click here
Inspect the fuses for circuits related to this system before performing the following procedure.

PROCEDURE

1.	PERFORM ACTIVE TEST USING TECHSTREAM (MAIN RELAY)

(a) Select the Active Test on the Techstream.

Click here

Chassis > ABS/VSC/TRAC > Active Test

Tester Display	Measurement Item	Control Range	Diagnostic Note
ECB Main Relay	Main relay	Relay ON/OFF	ECB: Electronically Controlled Brake System

Chassis > ABS/VSC/TRAC > Data List

Tester Display

Measurement Item

Range

Normal Condition

Diagnostic Note

ECB Main Relay

Main relay operation request

ON or OFF

ON: Relay on

OFF: Relay off

ECB: Electronically Controlled Brake System

Chassis > ABS/VSC/TRAC > Active Test

Active Test Display
ECB Main Relay

Data List Display
ECB Main Relay

(b) Check that the condition of the main relay observed on the Techstream changes according to Techstream operation.

Result	Proceed to
Main relay in the Data List turns ON/OFF using the Active Test.	A
Main relay in the Data List does not change using the Active Test.	B

GO TO STEP 4

2.	CHECK HARNESS AND CONNECTOR (BS TERMINAL)

(a) Turn the power switch off.

*a	Front view of wire harness connector (to Skid Control ECU (Brake Booster with Master Cylinder Assembly))

(b) Make sure that there is no looseness at the locking part and the connecting part of the connector.

OK:

The connector is securely connected.

(d) Check both the connector case and the terminals for deformation and corrosion.

OK:

No deformation or corrosion.

(e) Measure the voltage according to the value(s) in the table below.

Standard Voltage:

Tester Connection	Condition	Specified Condition
A35-52 (BS) - Body ground	Always	11 to 14 V

REPAIR OR REPLACE HARNESS OR CONNECTOR (BS CIRCUIT)

3.	RECONFIRM DTC

(a) Reconnect the A35 skid control ECU (brake booster with master cylinder assembly) connector.

(b) Clear the DTCs.

Click here

Chassis > ABS/VSC/TRAC > Clear DTCs

(d) Turn the power switch on (IG).

(e) Check if the same DTC is output.

Click here

Chassis > ABS/VSC/TRAC > Trouble Codes

Result	Proceed to
DTCs C1311 and C1312 are not output.	A
DTCs C1311 and/or C1312 are output.	B

USE SIMULATION METHOD TO CHECK

REPLACE BRAKE BOOSTER WITH MASTER CYLINDER ASSEMBLY

4.	CHECK HARNESS AND CONNECTOR (+BI TERMINAL)

(a) Turn the power switch off.

*a	Front view of wire harness connector (to Skid Control ECU (Brake Booster with Master Cylinder Assembly))

(b) Make sure that there is no looseness at the locking part and the connecting part of the connector.

OK:

The connector is securely connected.

(d) Check both the connector case and the terminals for deformation and corrosion.

OK:

No deformation or corrosion.

(e) Measure the voltage according to the value(s) in the table below.

Standard Voltage:

Tester Connection	Condition	Specified Condition
A35-15 (+BI1) - Body ground	Always	11 to 14 V
A35-5 (+BI2) - Body ground	Always	11 to 14 V

REPAIR OR REPLACE HARNESS OR CONNECTOR (+BI CIRCUIT)

5.	CHECK HARNESS AND CONNECTOR (BS TERMINAL)

(a) Measure the voltage according to the value(s) in the table below.

Standard Voltage:

Tester Connection	Condition	Specified Condition
A35-52 (BS) - Body ground	Always	11 to 14 V

*a	Front view of wire harness connector (to Skid Control ECU (Brake Booster with Master Cylinder Assembly))

REPLACE BRAKE BOOSTER WITH MASTER CYLINDER ASSEMBLY

REPAIR OR REPLACE HARNESS OR CONNECTOR (BS CIRCUIT)