Last Modified: 07-31-2024 |
6.11:8.1.0 |
Doc ID: RM100000001C9YV |
Model Year Start: 2019 |
Model: GR Corolla |
Prod Date Range: [06/2018 -
] |
Title: INTRODUCTION: HOW TO TROUBLESHOOT ECU CONTROLLED SYSTEMS: GENERAL INFORMATION; 2019 - 2025 MY Corolla Corolla Hatchback Corolla HV GR Corolla [06/2018 - ] |
GENERAL INFORMATION
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A large number of ECU controlled systems are used in this vehicle. In general, ECU controlled systems are considered to be very intricate, requiring a high level of technical knowledge to troubleshoot. However, most problem checking procedures only involve inspecting the ECU controlled system circuits one by one. An adequate understanding of the system and a basic knowledge of electricity is enough to perform effective troubleshooting, accurate diagnosis and necessary repairs.
TROUBLESHOOTING PROCEDURES
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The troubleshooting procedures consist of diagnostic procedures for when a DTC is stored and diagnostic procedures for when no DTCs are stored. The basic idea is explained in the following table.
Procedure Type
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Details
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Troubleshooting Method
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DTC Based Diagnosis
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The diagnostic procedure is based on the DTC that is stored.
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The malfunctioning part is identified based on the DTC detection conditions using a process of elimination.
The possible trouble areas are eliminated one-by-one using the Techstream and inspection of related parts.
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Symptom Based Diagnosis
(No DTCs stored)
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The diagnostic procedure is based on problem symptoms.
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The malfunctioning part is identified based on the problem symptoms using a process of elimination.
The possible trouble areas are eliminated one-by-one using the Techstream and inspection of related parts.
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Vehicle systems are complex and use many ECUs that are difficult to inspect independently. Therefore, a process of elimination is used, where components that can be inspected individually are inspected, and if no problems are found in these components, the related ECU is identified as the problem and replaced.
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It is extremely important to ask the customer about the environment and the conditions present when the problem occurred (Customer Problem Analysis). This makes it possible to simulate the conditions and confirm the symptom. If the symptom cannot be confirmed or the DTC does not recur, the malfunctioning part may not be identified using the troubleshooting procedure, and the ECU for the related system may be replaced even though it is not defective. If this happens, the original problem will not be solved.
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In order to prevent endless expansion of troubleshooting procedures, the troubleshooting procedures are written with the assumption that multiple malfunctions do not occur simultaneously for a single problem symptom.
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To identify the malfunctioning part, troubleshooting procedures narrow down the target by separating components, ECUs and wire harnesses during the inspection. If the wire harness is identified as the cause of the problem, it is necessary to inspect not only the connections to components and ECUs but also all of the wire harness connectors between the component and the ECU.
DESCRIPTION
(a) The data of each system and Diagnostic Trouble Codes (DTCs) can be read from the Data Link Connector 3 (DLC3) of the vehicle. When the system seems to be malfunctioning, use the Techstream to check for malfunctions and perform repairs.
CHECK DLC3
(a) The vehicle ECUs use ISO 15765-4 communication protocol. The terminal arrangement of the DLC3 complies with SAE J1962 and matches the ISO 15765-4 format.
Terminal No. (Symbol)
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Terminal Description
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Condition
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Specified Condition
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7 (SIL) - 5 (SG)
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Bus "+" line
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During transmission
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Pulse generation
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4 (CG) - Body ground
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Chassis ground
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Always
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Below 1 Ω
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5 (SG) - Body ground
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Signal ground
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Always
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Below 1 Ω
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16 (BAT) - Body ground
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Auxiliary battery positive
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Always
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11 to 14 V
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6 (CANH) - 14 (CANL)
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CAN bus line
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Ignition switch off*
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54 to 69 Ω
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6 (CANH) - 4 (CG)
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HIGH-level CAN bus line
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Ignition switch off*
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200 Ω or higher
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14 (CANL) - 4 (CG)
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LOW-level CAN bus line
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Ignition switch off*
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200 Ω or higher
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6 (CANH) - 16 (BAT)
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HIGH-level CAN bus line
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Ignition switch off*
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6 kΩ or higher
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14 (CANL) - 16 (BAT)
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LOW-level CAN bus line
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Ignition switch off*
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6 kΩ or higher
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NOTICE:
*: Before measuring the resistance, leave the vehicle as is for at least 1 minute and do not operate the ignition switch, any other switches or the doors.
If the result is not as specified, the DLC3 may be malfunctioning. Repair or replace the harness or connector.
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