2002 MAZDA 6 engine oil

TROUBLESHOOTING
K2–199
K2
End Of SieNO.23 TRANSAXLE OVERHEATSA6E578001030226
Diagnostic procedure
End Of SieNO.24 ENGINE STALLS WHEN SHIFTED TO D RANGE, OR IN R POSITIONA6E578001030227
2•Do following symptoms concurrently occur?
—Engine flares up or slips during
acceleration
—Engine flares up or slips when shiftingYes Go to symptom troubleshooting No.14 “Engine flares up or
slips when upshifting or downshifting” or No.15 “Engine
flares up or slips when accelerating vehicle”.
No Go to next step.
3•Verify test results.
—If okay, return to diagnostic index to service any additional symptoms.
—If malfunction remains, inspect related Service Informations and perform repair or diagnosis.
—If vehicle repaired, troubleshooting completed.
—If vehicle not repaired or additional diagnostic information not available, replace TCM. STEP INSPECTION ACTION
23 Transaxle Overheat
DESCRIPTION•Burnt smell emitted from transaxle.
•Smoke emitted from transaxle.
POSSIBLE
CAUSE•Malfunction is restricted to hindrance of coolant at oil cooler. In addition, overheating of transaxle may
be caused by a malfunction of TFT sensor.
—Line pressure low
•ATF level low
•Incorrect throttle position signal
•Misadjustment of throttle cable
—Oil cooler malfunction (Foreign material mixed in with ATF)
—TFT sensor malfunction
—Excessive amount of ATF
Note
•Before following troubleshooting steps, make sure that Automatic Transaxle On-Board Diagnostic
and Automatic Transaxle Basic Inspection are conducted.
STEP INSPECTION ACTION
1•Is line pressure okay?
(See K2–72 Line Pressure Test.)Yes Go to next step.
No Repair or replace any defective parts according to
inspection results.
2•Is stall speed okay?
(See K2–74 Stall Speed Test.)Yes Go to next step.
No Repair or replace any defective parts according to
inspection results.
3•Inspect TFT sensor and related harness:
vibration, intermittent open/short circuit
•Is it okay?Yes Go to next step.
No Repair or replace part if necessary.
4•Inspect pressure control solenoid circuit.
•Is it okay?Yes Go to next step.
No•Inspect for pressure control solenoid mechanical stuck.
(See K2–88 SOLENOID VALVE INSPECTION.)
5•Inspect for bend, damage, corrosion or kinks
of oil cooler pipes.
•Are oil cooler pipes okay?Yes•Overhaul control valve body and repair or replace any
defective parts.
(See ATX Workshop Manual.)
•If problem remains, replace or overhaul transaxle and
repair or replace any defective parts.
(See ATX Workshop Manual.)
No Replace any defective parts.
6•Verify test results.
—If okay, return to diagnostic index to service any additional symptoms.
—If malfunction remains, inspect related Service Informations and perform repair or diagnosis.
—If vehicle repaired, troubleshooting completed.
—If vehicle not repaired or additional diagnostic information not available, replace TCM.
24 Engine stalls when shifted to D range, or in R position
DESCRIPTION•Engine stalls when shifting from N or P position to D range or R position at idle.
POSSIBLE
CAUSE•Malfunction is on the engine control side (e.g. IAC system). Otherwise, malfunction is in input/turbine
speed sensor (engine sometimes starts) or TCC piston circuit (engine always stalls).
•Before following troubleshooting steps, make sure that Automatic Transaxle On-Board Diagnostic and
Automatic Transaxle Basic Inspection are conducted.

K2–200
TROUBLESHOOTING
Diagnostic procedure
End Of SieNO.25 ENGINE STALLS WHEN DRIVING AT SLOW SPEED OR STOPPINGA6E578001030228
Diagnostic procedure
End Of SieNO.26 STARTER DOES NOT WORKA6E578001030229
End Of SieNO.27 GEAR POSITION INDICATOR LIGHT DOES NOT ILLUMINATE IN M RANGEA6E578001030230
Diagnostic procedure
STEP INSPECTION ACTION
1•Go to symptom troubleshooting No.4
“Engine stalls-after start/at idle”.
(See Section F.)
•Is engine control system okay?Yes Go to next step.
No Repair or replace any defective parts according to
inspection results.
2•Remove torque converter.
•Inspect torque converter.
(See ATX Workshop Manual.)
•Is torque converter okay?Yes•Inspect for bend, damage or kinks of oil cooler line
pipes. If okay, overhaul control valve body and repair or
replace any defective parts.
(See ATX Workshop Manual.)
•If problem remains, replace or overhaul transaxle and
repair or replace any defective parts.
(See ATX Workshop Manual.)
No Replace torque converter.
3•Verify test results.
—If okay, return to diagnostic index to service any additional symptoms.
—If malfunction remains, inspect related Service Informations and perform repair or diagnosis.
—If vehicle repaired, troubleshooting completed.
—If vehicle not repaired or additional diagnostic information not available, replace TCM.
25 Engine stalls when driving at slow speeds or stopping
DESCRIPTION•Engine stalls when brake pedal depressed while driving at low speed or stopping.
POSSIBLE
CAUSE•Malfunction is on engine control side (e.g. Fuel injection control, IAC system)
Note
•Before following troubleshooting steps, make sure that Automatic Transaxle On-Board Diagnostic
and Automatic Transaxle Basic Inspection are conducted.
STEP INSPECTION ACTION
1•Go to symptom troubleshooting No.10 “Low
idle/stalls during deceleration”.
(See Section F.)
•Is engine control system okay?Yes Go to symptom troubleshooting No.24 “Engine stalls when
shifted to D range, or in R position”.
No Repair or replace any defective parts according to
inspection results.
2•Verify test results.
—If okay, return to diagnostic index to service any additional symptoms.
—If malfunction remains, inspect related Service Informations and perform repair or diagnosis.
—If vehicle repaired, troubleshooting completed.
—If vehicle not repaired or additional diagnostic information not available, replace TCM.
26Starter does not work
DESCRIPTION•Starter does not work even when P or N position.
POSSIBLE
CAUSE•Selector lever misadjustment.
•TR switch misadjustment.
•Open or short circuit in TR switch.
27 Gear position indicator light does not illuminate in M range
DESCRIPTION•Gear position indicator light in instrument cluster does not illuminate in M range and ignition switch at
on.
POSSIBLE
CAUSE•M range switch, gear position indicator light or related wiring harness malfunction.
Note
•Before following troubleshooting steps, make sure that Automatic Transaxle On-Board Diagnostic
and Automatic Transaxle Basic Inspection are conducted.
STEP INSPECTION ACTION
1•Are other indicator lights illuminated with
ignition switch on? Yes Go to next step.
No Inspect meter fuse.

OUTLINE
M–3
M
4WD
Bold frames:New specifications
End Of Sie
ItemSpecification
New Mazda6 (GY)(Wagon 4WD)
EngineL3
TransaxleATX
Front axle Bearing type Angular ball bearing
Rear axle Bearing type Angular ball bearing
Front drive shaftJoint typeWheel side Bell joint
Differential side Tripod joint (With free ring)
Shaft diameter (mm {in}) 24.0 {0.94}
Joint shaft Shaft diameter (mm {in}) 29.0 {1.14}
Rear drive shaftJoint typeWheel side Bell joint
Differential side Double offset joint
Shaft diameter (mm {in}) 22.0 {0.87}
Rear and front wheel torque distribution unit Electronic control coupling
Rear differentialReduction gear Hypoid gear
Differential gear Straight bevel gear
Ring gear size (Inches) 6.5
Final gear ratio 2.928
Gears:
Number of teethDrive pinion 14
Ring gear 41
Differential oilTypeGrade API service GL-5
ViscosityAbove –18°C {0°F}: SAE 90
Below –18°C {0°F}: SAE 80
Amount
(Approximate quantity)(L {US qt, lmp qt}) 1.0 {1.1, 0.9}

ELECTRONIC 4WD CONTROL SYSTEM
M–7
M
OUTLINEA6E632227100201Features
Improved off-road mobility, handling stability, operability, fuel economy and marketability
•An electronic 4WD control system, which automatically optimizes traction distribution to the front and rear
wheels, has been adopted.
Improved serviceability
•A self-diagnostic function has been adopted for the electronic 4WD control system.
Electronic 4WD control system outline
•The newly adopted electronic 4WD control system automatically and optimally controls drive torque distribution
for the front and rear wheels. Due to this off-road mobility, driving stability and fuel economy are improved.
•Based on the input signals from each sensor, the 4WD control modure (4WD CM) determines vehicle driving
and road conditions, and controls output current to the electronic control coupling (4WD solenoid) inside the
rear differential. This control allows for optimal distribution of the drive torque from the engine to the rear
wheels.
•Also, the 4WD CM automatically controls the 4WD, greatly reducing the load on the driver and improving
operability.
Structural view
.
ELECTRONIC 4WD CONTROL SYSTEM
87
5
4
3
6
9
8
7
5
4
3
10
6
1
2
9
10
A6E63222001
1L.H.D.
2 R.H.D.
3 4WD warning light
4 4WD control modure
5 DSC HU/CM6PCM
7TCM
8 Electronic control coupling (4WD solenoid)
9 Differential oil temperature sensor
10 Rear differential

M–8
ELECTRONIC 4WD CONTROL SYSTEM
Components and Functions
System Diagram
.
Part name Function
Electronic control coupling
(4WD solenoid)•Based on a signal from the 4WD CM, it operates the electromagnetic clutch and
transmits drive torque to the rear wheels.
Differential oil temperature
sensor•Informs the 4WD CM of the rear differential oil temperature.
4WD CM•Controls operation of the electronic control coupling (4WD solenoid) based on signals
input from the throttle opening angle, speed, differential oil temperature and other
sensors.
•Outputs coupling control condition and 4WD warning control information as a CAN
signal.
•Controls the on-board diagnostic system and the fail-safe system if there is a malfunction
in the 4WD system.
4WD warning light•Illuminates or flashes to alert driver of a malfunction or control failure in the 4WD system.
PCM•Sends the throttle opening angle and engine speed signals, as CAN signals, to the 4WD
CM.
TCM•Sends the selector lever position and gear position signals, as CAN signals, to the 4WD
CM.
DSC HU/CM•Sends the four-wheel speed and DSC operating condition signals, as CAN signals, to the
4WD CM.
•Sends the coupling torque request signal, as a CAN signal, to the 4WD CM.
KO
P I
A
C
NH G
9
8
7
5
4
3
10
13
11
12
6
1
2
A6E63222002
1 Battery
2 Ignition switch
3 Differential oil temperature sensor
4 4WD control modure (4WD CM)
5 Electronic control coupling
6 4WD solenoid
7 Instrument cluster8 DSC HU/CM
9TCM
10 PCM
11 CAN-H
12 CAN-L
13 CAN driver

M–14
ELECTRONIC 4WD CONTROL SYSTEM
End Of Sie4WD SYSTEM CONTROLA6E632227100206Outline
Features
•Based on the inputted signals listed below, the 4WD CM calculates the optimal amount of torque distribution for
the rear wheels and outputs a corresponding electric control current to the electronic control coupling (4WD
solenoid).
•The module controls the current outputted to the 4WD solenoid by changing the rate of the ON/OFF timing.
Construction
Block diagram
.
Signal output part Signal name Note
PCMThrottle opening angle
Engine speed
Transmitted as a CAN signal TCMSelector lever position
Gear position
DSC HU/CMFour-wheel speed
DSC operating condition
Coupling torque request (DSC equipped vehicles)
Differential oil temperature
sensorRear differential oil temperature—
9
87
5
4
310
1413
11
12
61
2
A6E63222009
1PCM
2TCM
3 DSC HU/CM
4 Differential oil temperature sensor
5 Throttle opening angle
6 Engine speed
7 Selector lever position8 Gear position
9 Four-wheel speed
10 DSC operating condition
11 Coupling torque request (DSC equipped vehicles)
12 Rear differential oil temperature
13 4WD control modure (4WD CM)
14 Electronic control coupling (4WD solenoid)

ELECTRONIC 4WD CONTROL SYSTEM
M–15
M
Operation
Normal control
•When starting off or accelerating during straight-ahead driving, torque transmitted to the rear wheels is
optimally controlled to ensure sufficient acceleration performance. Due to this, standing-start and acceleration
performance is improved.
•Also, in order to improve fuel economy when driving at a stable, consistent speed, torque transmitted to the
rear wheels is damped, and rear-wheel drive is controlled to maintain it close to that of the front wheels.
Tight cornering control
•When the 4WD CM determines, based on the four-wheel speed signal, that the vehicle is in tight cornering, it
reduces the torque transmitted to the rear wheels to avoid tight corner braking characteristics.
Integrated DSC control
•If a signal from the DSC HU/CM input to the 4WD CM indicates that ABS control is activated, the module
controls the torque transmitted to the rear wheels to prevent undue influence on ABS control.
•Also, when a coupling torque request signal is received from the DSC HU/CM, the module controls the torque
transmitted to the rear wheels to match the amount of requested torque.
Other control
•In case the rear differential oil temperature exceeds the specified amount, or when there is an unusually large
variation in the rotation speed of the front and rear wheels (ex. when trying to get unstuck), control is
temporarily suspended in order to protect the 4WD system. When this occurs the 4WD warning light flashes to
indicate the situation to the driver.
End Of Sie
CONTROLLER AREA NETWORK (CAN)A6E632227100207Outline
•The 4WD CM transmits/receives information using the CAN system. See Section T for detailed information
regarding the CAN system.
Operation
Transmitted information
•Coupling torque
•4WD system operating condition (warning light information)
Received information
•Four-wheel speed
•Throttle opening angle
•Engine speed
•ABS/DSC operating condition
•Gear position
•Selector lever position
•Coupling torque request
End Of Sie

ELECTRONIC 4WD CONTROL SYSTEM
M–17
M
Memory function
•This function stores DTCs for malfunctions of the input/output signal systems as determined by the failure
detection function. Once a DTC is stored, it is not cleared even if the input/output signal system malfunction
returns to normal when the ignition key is turned to the LOCK position (engine OFF).
•Since DTCs are stored in the non-volatile memory inside the 4WD CM, they are not cleared even if the battery
is disconnected. Therefore, it is necessary to clear the memory when maintenance has been completed. For
clearing DTCs, refer to the procedures in the Workshop Manual.
•When inspecting DTCs using a WDS or equivalent, only one memory stored DTC at a time can be displayed.
Therefore, when multiple DTCs have been stored, it is necessary to inspect for DTCs again after repairing and
clearing the present DTC to ensure that there are no more DTCs present in the memory.
Fail-safe function
•When the failure detection function determines that there is a malfunction, the 4WD warning light illuminates to
alert the driver. At this time, the fail-safe function suspends control or takes other measures to ensure that
driving stability is not lost.
X:Available
*1: Does not illuminate when only the coupling torque request signal from the DSC HU/CM cannot be received.*2: Only integrated DSC control is prohibited when only the coupling torque request signal from the DSC HU/CM
cannot be received.
External tester communication function
•This function allows for the storing and clearing of DTCs due to a communication link between the 4WD CM
and an external tester.
End Of Sie
DTC Malfunction location4WD warning
lightconditionDTC stored in
memoryControl condition
P1887 System wiring Illuminated X Stop
P1888 Differential oil temperature sensor Illuminated X Stop
U0100 PCM communication system Illuminated X Stop
U0101 TCM communication system Illuminated X Stop
U0121 DSC communication system
Illuminated
*1X
Stop*2