On-Board Diagnostic (OBD) System Description
On-Board Diagnostic (OBD) System DescriptionECM in this vehicle has the following functions.
- When the ignition switch is turned to ON position with the engine stopped, malfunction indicator lamp (MIL) (1) turns on in order to check the MIL (1) and its circuit.
- When ECM detects a malfunction which gives an adverse effect to vehicle emission more than specified driving cycle (D/C), it turns on or flashes MIL in the combination meter (flashing only when detecting a misfire which can cause damage to the catalyst) and stores the diagnostic trouble code (DTC) in its memory.
(If it detects normal condition for continuously three driving cycles are normal after detecting a malfunction, it turns off MIL after engine start in next D/C although DTC stored in its memory is remained as a history DTC.)
- For some malfunctions, ECM adopts the 2 D/C detecting logic to prevent erroneous detection.
With this logic, MIL is turned on when the malfunction is detected in 2 consecutive D/Cs.
- When a malfunction is detected, engine and driving conditions at the moment are stored in ECM memory as freeze frame data.
For details, refer to description on Freeze Frame Data.
- It is possible to communicate ECM via data link connector (DLC) (3) not only by SUZUKI scan tool (SUZUKI-SDT) (2) but also by CAN communication OBD generic scan tool.
Warm-Up Cycle
A warm-up cycle means the duration from the engine start until the coolant temperature has risen by at least 23 °C (73 °F) exceeding the minimum temperature of 70 °C (158 °F).
Driving Cycle (D/C)
A "Driving Cycle" is a duration from an engine startup to the following engine shutoff.
2 Driving Cycle Detection Logic
The malfunction detected in the 1st driving cycle is stored in ECM memory (in the form of pending DTC and freeze frame data) but the MIL does not turn on at this time. It turns on at the 2nd detection of the same malfunction in the next driving cycle.
Pending DTC
Pending DTC means a malfunction detected and stored temporarily at the 1st driving cycle of the 2 D/C detection logic.
Freeze Frame Data
ECM stores the engine and driving conditions at the moment of the detection of a malfunction in its memory. This data is called "Freeze frame data".
It is possible to know engine and driving conditions (e.g., whether the engine was warm or not, where the vehicle was running or stopped, where air/fuel mixture was lean or rich) when a malfunction was detected by checking the freeze frame data. Also, ECM has a function to store each freeze frame data for 3 different malfunctions in the order of their detection. Utilizing this function, it is possible to know the order of detection of these malfunctions. this is helpful when rechecking or diagnosing a trouble.
For details of freeze frame data that can be read from ECM, refer to table below.
Fuel System B1
Fuel System B2
Calculated Load
ECT
Short Term Fuel Trim B1
Long Term Fuel Trim B1
Short Term Fuel Trim B2
Long Term Fuel Trim B2
Engine Speed
vehicle'speed
Ignition Advance
Intake Air Temperature
MAF
Absolute TP 1*
Evap Canist Prg Duty
Fuel Tank Level
Barometric Pres
Battery Voltage
Relative TP**
Absolute TP 2*
Absolute APP 1*
Absolute APP 2*
Target Throt Pos
NOTE:
- For freeze frame data with asterisk(*), it indicates the ratio between power supply voltage and output voltage of related sensor.
When power supply voltage is 5.0 V and output voltage is 4.0 V, freeze frame data is displayed the following.
- For systems where the output is proportional to the input voltage, it displays 80% (= the percent of maximum input reference voltage).
- For systems where the output is inversely proportional to the input voltage, it displays 20% (=100% minus the percent of maximum input reference voltage).
- For relative TP with asterisks(**) in above table, it indicates by formula ((output voltage - output voltage at closed throttle position) / power supply voltage). When power supply voltage is 5.0 V and output voltage at closed throttle position is 1.0 V, freeze frame data is displayed the following.
- At closed throttle position (output voltage = 1.0 V), it displays 0%.
- At wide open throttle position (output voltage = 4.0 V), it displays 60%. However, for systems where the output is inversely proportional to the input voltage, it displays 100% minus above-mentioned formula.
Freeze Frame Data Display Of SUZUKI SDT (For Example):
Freeze frame data clearance
The freeze frame data is cleared at the same time as clearance of DTC.
System Readiness Test
The system readiness test is to check if the on-board diagnosis of each system related to exhaust emission has been completed or not using a scan tool (Suzuki SDT or CAN communication OBD generic scan tool). When the conditions established for each system are met, ECM performs an on-board diagnosis of corresponding system and changes the status of system readiness test from "Incomplete" to "Complete". When "Complete" status is displayed, it is maintained until the "DTC clearance" is performed using scan tool.
NOTE:
- The status of system readiness test may be changed as "Incomplete" when performing the following services.
- Disconnection of battery negative cable
- Disconnection of ECM connectors
- Removal of ground cable for ECM
- Disconnection of "ECM" fuse
- By utilizing this system readiness test, it is possible to confirm that all DTC confirmation procedure for each system has been completed or incompleted. For all DTCs related to each system, refer to the table below.
- The system readiness test is NOT the result ("Normal" or "Abnormal") of the onboard diagnosis but the result ("Complete" or "Incomplete") of the on-board diagnosis.
Monitoring item of system readiness test table
NOTE:
- *1: For item with asterisk 1 (*1) in the table below, it is applicable to other than Mexican specification.
- *2: For item with asterisk 2 (*2) in the table below, it is applicable to Mexican specification.
DLC (Data Link Connector) Description
DLC (1) is in compliance with SAE J1962 in its installation position, the shape of connector and pin assignment.
OBD CAN Hi line (6) and Low line (3) (CAN line of ISO 15765-4) are used for SUZUKI scan tool (SUZUKI-SDT) (7) or CAN communication OBD generic scan tool to communicate with ECM.
