Diagnosis System

DESCRIPTION
When troubleshooting OBD II (On-Board Diagnostics) vehicles, the Techstream (complying with SAE J1987) must be connected to the DLC3 (Data Link Connector 3) of the vehicle. Various data in the vehicle's ECM (Engine Control Module) can be then read.

OBD II regulations require that the vehicle's on-board computer illuminates the MIL (Malfunction Indicator Lamp) on the instrument panel when the computer detects a malfunction in:

Fig 1: Identifying Malfunction Indicator Lamp
Courtesy of © TOYOTA, LICENSE AGREEMENT TMS1002
1. The emission control systems and components
2. The power train control components (which affect vehicle emissions)
3. The computer itself
  In addition, the applicable DTCs (Diagnostic Trouble Codes) prescribed by SAE J2012 are recorded on 3 consecutive trips, the MIL turns off automatically but the DTCs remain recorded in the ECM memory. To check DTCs, connect the Techstream to the DLC3. The tester displays DTCs, freeze frame data, and a variety of engine data. The DTCs and freeze frame data can be erased with the tester (See DTC CHECK / CLEAR ).
  
  In order to enhance OBD function on vehicles and develop the Off-Board diagnosis system, CAN communication is introduced in this system (CAN: Controller Area Network). It minimizes a gap between technician skills and vehicle technology. CAN is a network, which uses a pair of data transmission lines, spanning multiple computers and sensors. It allows a high speed communication between the systems and to simplify the wire harness connection.
NORMAL MODE AND CHECK MODE
The diagnosis system operates in normal mode during normal vehicle use. In normal mode, 2 trip detection logic is used to ensure accurate detection of malfunctions. Check mode is also available as an option for technicians. In check mode, 1 trip detection logic is used for simulating malfunction symptoms and increasing the system's ability to detect malfunctions, including intermittent problems (Techstream only) (See CHECK FOR INTERMITTENT PROBLEMS ).
TRIP DETECTION LOGIC
When a malfunction is first detected, the malfunction is temporarily stored in the ECM memory (1st trip). If the same malfunction is detected during the next subsequent drive cycle, the MIL is illuminated (2nd trip).
FREEZE FRAME DATA
Freeze frame data record the engine condition (fuel system, calculated engine load, engine coolant temperature, fuel trim, engine speed, vehicle speed, etc) when malfunctions are detected. When troubleshooting, freeze frame data can help determine if the vehicle was moving or stationary, if the engine was warmed up or not, if the air-fuel ratio was lean or rich, and other data, from the time the malfunction occurred.

DLC3 (Data Link Connector 3)

The vehicle's ECM uses the ISO 15765-4 for communication protocol. The terminal arrangement of the DLC3 complies with SAE J1962 and matches the ISO 15765-4 format.

Fig 2: Identifying DLC3 Connector Terminal

Courtesy of © TOYOTA, LICENSE AGREEMENT TMS1002

CONNECTOR TERMINAL REFERENCE CHART

Symbols	Terminal No.	Names	Reference terminals	Results	Conditions
SIL	7	Bus "+" line	5 - Signal ground	Pulse generation	During transmission
CG	4	Chassis ground	Body ground	1 Ω or less	Always
SG	5	Signal ground	Body ground	1 Ω or less	Always
BAT	16	Battery positive	Body ground	9 to 14 V	Always
CANH	6	CAN "High" line	CANL	54 to 69 Ω	Ignition switch OFF*
CANH	6	CAN "High" line	Battery positive	1 MΩ or higher	Ignition switch OFF*
CANH	6	CAN "High" line	CG	200 Ω or higher	Ignition switch OFF*
CANL	14	CAN "Low" line	Battery positive	1 MΩ or higher	Ignition switch OFF*
CANL	14	CAN "Low" line	CG	200 Ω or higher	Ignition switch OFF*
HINT: *: 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.

HINT:

The DLC3 is the interface prepared for reading various data from the vehicle's ECM. After connecting the cable of the Techstream, turn the ignition switch ON and turn the tester ON. If a communication failure message is displayed on the tester screen (on the tester: Unable to Connect to VIN), a problem exists in either the vehicle or tester. In order to identify the location of the problem, connect the tester to another vehicle. If communication is normal: Inspect the DLC3 on the original vehicle.

If communication is impossible: The problem is probably with the tester itself. Consult the Service Department listed in the instruction manual.

BATTERY VOLTAGE
Battery Voltage: 11 to 14 V

If the voltage is below 11V, recharge the battery before proceeding.
MIL (Malfunction Indicator Lamp)
1. The MIL is illuminated when the ignition switch is first turned ON (the engine is not running).
2. The MIL should turn off when the engine is started. If the MIL remains illuminated, the diagnosis system has detected a malfunction or abnormality in the system.
  HINT:
  
  If the MIL is not illuminated when the ignition switch is first turned ON, check the MIL circuit (See MIL CIRCUIT ).

ALL READINESS

HINT:

With "All Readiness" you can check whether or not the DTC judgement has been completed by using the Techstream.
You should check "All Readiness" after simulating malfunction symptoms or for validation after finishing repairs.

Connect the Techstream to the DLC3.
Turn the ignition switch ON and turn the tester ON.
Clear the DTCs (See CHECK MODE PROCEDURE ).
Perform the DC judgment driving pattern to run the DTC judgement.
Enter the following menus: Powertrain / Engine and ECT/Utility/All Readiness.
Input the DTCs to be confirmed.

Check the DTC judgement result.

Result

RESULT CHART

Tester Display	Description
NORMAL	DTC judgement completed System normal
ABNORMAL	DTC judgement completed System abnormal
INCOMPLETE	DTC judgement not completed You should perform driving after confirming DTC enabling conditions
UNKNOWN	Unable to perform DTC judgement Number of DTCs which do not fulfill DTC preconditions has reached ECU'S memory limit