CHECKING MONITOR STATUS
The purpose of the monitor result (mode 06) is to allow access to the results of on-board diagnostic monitoring tests of specific components/systems that are not continuously monitored. Examples are catalysts and evaporative emissions (EVAP) systems.
The monitor result allows the OBD II scan tool to display the monitor status, test value, minimum test limit and maximum test limit. These data are displayed after the vehicle has been driven to run the monitor.
When the test value is not between the minimum and maximum test limits, the ECM (PCM) interprets this as a malfunction. If the test value is on the borderline of the test limits, the component is likely to malfunction in the near future.
Perform the following procedures to view the monitor status. Although these procedures refer to the Lexus/Toyota Techstream, the monitor status can be checked using a generic OBD II scan tool. Refer to your scan tool operator's manual for specific procedural information.
1. PERFORM MONITOR DRIVE PATTERN
(a) Connect the Techstream to the DLC3.
(b) Turn the ignition switch to ON.
(c) Turn the Techstream on.
(d) Clear the DTCs (See page ).
(e) Operate the vehicle in accordance with the applicable drive pattern described
in Readiness Monitor Drive Pattern (See page
). Do not turn the ignition switch off.
NOTICE:
The test results will be lost if the ignition switch is turned off.
2. ACCESS MONITOR RESULT
(a) Enter the following menus: Powertrain / Engine / Monitor / Current Monitor / Result.
(b) Confirm the monitor status for each component.
HINT:
The monitor status for each component is displayed in the Result column.
(c) Display the test results and test values for a monitor by selecting the icon in the Details column for that monitor.
3. CHECK COMPONENT STATUS
(a) Compare the test value with the minimum test limit (Min Limit) and maximum test limit (Max Limit).
(b) If the test value is between the minimum and maximum test limits, the component is functioning normally. If not, the component is malfunctioning. The test value is usually not near the test limits. If the test value is on the borderline of the test limits, the component is likely to malfunction in the near future.
HINT:
The monitor result might on rare occasions be Pass even if the Malfunction Indicator Lamp (MIL) is illuminated. This indicates the system malfunctioned on a previous driving cycle. This might be caused by an intermittent problem.
4. MONITOR RESULT INFORMATION
If you use a generic scan tool, multiply the value by the scaling value listed below.
Advance/Retarded Intake Side
Monitor ID |
Test ID |
Scaling |
Unit |
Description |
---|---|---|---|---|
$35 |
$81 |
Multiply by 0.01 |
Second |
Forced movement of oil control valve time |
Monitor ID |
Test ID |
Scaling |
Unit |
Description |
---|---|---|---|---|
$35 |
$85 |
Multiply by 0.01 |
Second |
Forced movement of oil control valve time |
Monitor ID |
Test ID |
Scaling |
Unit |
Description |
---|---|---|---|---|
$01 |
$91 |
Multiply by 0.004 |
mA |
A/F sensor current |
$01 |
$93 |
Multiply by 0.00012 |
V |
Rich to Lean response rate deterioration level |
$01 |
$94 |
Multiply by 0.00012 |
V |
Lean to Rich response rate deterioration level |
$01 |
$95 |
Multiply by 0.001 |
Second |
Rich to Lean delay level |
$01 |
$96 |
Multiply by 0.001 |
Second |
Lean to Rich delay level |
Monitor ID |
Test ID |
Scaling |
Unit |
Description |
---|---|---|---|---|
$02 |
$08 |
Multiply by 0.001 |
V |
Maximum sensor voltage |
$02 |
$8D |
Multiply by 0.001 |
Seconds |
Duration that sensor voltage drops to 0.2 V during fuel cut |
$02 |
$8F |
Multiply by 0.0003 |
g |
Maximum oxygen storage capacity |
$02 |
$90 |
Multiply by 0.001 |
No dimension |
Response rate during fuel cut from rich condition (Normalization) |
Monitor ID |
Test ID |
Scaling |
Unit |
Description |
---|---|---|---|---|
$21 |
$AF |
Multiply by 0.001 |
No dimension |
Oxygen storage capacity of catalyst bank 1 (Normalization) |
Monitor ID |
Test ID |
Scaling |
Unit |
Description |
---|---|---|---|---|
$3D |
$C9 |
Multiply by 0.001 |
kPa |
Test value for small leak (P0456) |
$3D |
$CA |
Multiply by 0.001 |
kPa |
Test value for gross leak (P0455) |
$3D |
$CB |
Multiply by 0.001 |
kPa |
Test value for leak detection pump OFF stuck (P2401) |
$3D |
$CD |
Multiply by 0.001 |
kPa |
Test value for leak detection pump ON stuck (P2402) |
$3D |
$CE |
Multiply by 0.001 |
kPa |
Test value for vent valve OFF stuck (P2420) |
$3D |
$CF |
Multiply by 0.001 |
kPa |
Test value for vent valve ON stuck (P2419) |
$3D |
$D0 |
Multiply by 0.001 |
kPa |
Test value for reference orifice low flow (P043E) |
$3D |
$D1 |
Multiply by 0.001 |
kPa |
Test value for reference orifice high flow (P043F) |
$3D |
$D4 |
Multiply by 0.001 |
kPa |
Test value for purge VSV close stuck (P0441) |
$3D |
$D5 |
Multiply by 0.001 |
kPa |
Test value for purge VSV open stuck (P0441) |
$3D |
$D7 |
Multiply by 0.001 |
kPa |
Test value for purge flow insufficient (P0441) |
Monitor ID |
Test ID |
Scaling |
Unit |
Description |
---|---|---|---|---|
$42 |
$91 |
Multiply by 0.001 |
Ohm |
Oxygen sensor heater resistance bank 1 sensor 2 |
Monitor ID |
Test ID |
Scaling |
Unit |
Description |
---|---|---|---|---|
$81 |
$81 |
Multiply by 0.00003 |
No dimension |
Monitoring method using A/F sensor |
$81 |
$85 |
Multiply by 0.001 |
No dimension |
Monitoring method using crank angle sensor |
$81 |
$86 |
Multiply by 0.001 |
No dimension |
Monitoring method using crank angle sensor |
$81 |
$87 |
Multiply by 0.001 |
No dimension |
Monitoring method using crank angle sensor |
$81 |
$88 |
Multiply by 0.001 |
No dimension |
Monitoring method using crank angle sensor |
Monitor ID |
Test ID |
Scaling |
Unit |
Description |
---|---|---|---|---|
$A1 |
$0B |
Multiply by 1 |
Time |
Total EWMA* misfire count of all cylinders in last ten driving cycles |
$A1 |
$0C |
Multiply by 1 |
Time |
|
$A2 |
$0B |
Multiply by 1 |
Time |
Total EWMA* misfire count of cylinder 1 in last ten driving cycles |
$A2 |
$0C |
Multiply by 1 |
Time |
|
$A3 |
$0B |
Multiply by 1 |
Time |
Total EWMA* misfire count of cylinder 2 in last ten driving cycles |
$A3 |
$0C |
Multiply by 1 |
Time |
|
$A4 |
$0B |
Multiply by 1 |
Time |
Total EWMA* misfire count of cylinder 3 in last ten driving cycles |
$A4 |
$0C |
Multiply by 1 |
Time |
|
$A5 |
$0B |
Multiply by 1 |
Time |
Total EWMA* misfire count of cylinder 4 in last ten driving cycles |
$A5 |
$0C |
Multiply by 1 |
Time |
|
HINT:
*: EWMA (Exponential Weighted Moving Average) misfire counts for last 10 driving cycles (calculated)
Calculation: 0.1 x (current counts) + 0.9 x (previous average)
Initial value for (previous average) = 0
Inspection
INSPECTION
PROCEDURE
1. INSPECT PAD LINING THICKNESS
(a) Using a ruler, measure the pad lining thickness.
Text in Illustration
*1
Ruler
Standard thickness of a new pad:
12.0 mm (0.472 ...
Test Mode Procedure
TEST MODE PROCEDURE
1. WARNING LIGHT AND INDICATOR LIGHT INITIAL CHECK
(a) Release the parking brake.
NOTICE:
Before releasing the parking brake, move the shift lever to P for safety.
HINT:
When the parking brake is applied or the brake fluid level is lo ...
Inside Vehicle
General Maintenance
GENERAL MAINTENANCE
CAUTION / NOTICE / HINT
These are maintenance and inspection items that are considered to be
the owner's responsibility.
The owner can do them or they can have them done at a service center.
The ...