2002 MAZDA 6 transmission oil

SCHEDULED MAINTENANCE
GI–17
GI
Scheduled Maintenance Service (Specific Work Required)
•The specific work required for each maintenance item is listed in the following table. (Please refer to the section
applicable to the model serviced.)
For Europe (L.H.D. U.K.)
Bold frames: New item
Maintenance Item Specific Work Required
ENGINE
Engine valve clearance Measure clearance
Drive beltsInspect for wear, cracks and fraying, and check tension.
Replace drive belt.
Engine timing belt Replace engine timing belt.
Engine oil Replace engine oil and inspect for leakage.
Oil filter Replace oil filter and inspect for leakage.
COOLING SYSTEM
Cooling system
(including coolant level adjustment)Check coolant level and quality, and inspect for leakage.
Engine coolant Replace coolant.
FUEL SYSTEM
Air cleaner elementInspect for dirt, oil and damage.
Clean air cleaner element (by blowing air).
Replace air cleaner element.
Fuel filter Replace fuel filter.
Fuel lines and hoses Inspect for cracks, leakage and loose connection.
Fuel injection system (for MZR-CD (RF Turbo)) Update to injection amount correction with WDS. (see W/M)
IGNITION SYSTEM (FOR GASOLINE)
Spark plugsInspect for wear, damage, carbon, high-tension lead condition and measure
plug gap.
Replace spark plugs.
EMISSION CONTROL SYSTEM
Evaporative system (for gasoline)Check system operation (see W/M), vapor lines, vacuum fitting hoses and
connection.
E.G.R. system (MZR-CR (RF Turbo))Check system operation (see W/M), vacuum fitting hoses and connection.
Update to MAF correction for E.G.R control with WDS. (see W/M)
ELECTRICAL SYSTEM
Battery electrolyte level and specific gravity Check level and specific gravity.
CHASSIS AND BODY
Brake fluidCheck fluid level and inspect for leakage.
Replace brake fluid.
Brake lines, hoses and connectionsInspect for cracks, damage, chafing, corrosion, scars, swelling and fluid
leakage.
Parking brake Check lever stroke.
Power brake unit and hosesCheck vacuum lines, connections and check valve for improper attachment,
air tightness, cracks chafing and deterioration.
Disc brakesTest for judder and noise. Inspect caliper for correct operation and fluid
leakage, brake pads for wear. Check disc plate condition and thickness.
Power steering fluid and linesCheck fluid level and lines for improper attachment, leakage, cracks,
damage, loose connections, chafing and deterioration.
Power steering fluid Check fluid level.
Power steering system and hosesCheck lines for improper attachment, leakage, cracks, damage, loose
connections, chafing and deterioration.
Steering operation and gear housingCheck that the steering wheel has the specified play. Be sure to check for
changes, such as excessive play, hard steering or strange noises.
Check gear housing and boots for looseness, damage and grease/gear oil
leakage.
Steering linkages tie rod ends and armsCheck ball joint, dust cover and other components for looseness, wear,
damage and grease leakage.
Front and rear suspension and ball joints Inspect for grease leakage, cracks, damage and looseness.
Manual transmission/transaxle oilCheck oil level and inspect for leakage.
Replace manual transmission/transaxle oil.
Automatic transmission/transaxle fluid level Check fluid level.

K2–74
AUTOMATIC TRANSAXLE
Evaluation of line pressure test
Stall Speed Test
1. Perform mechanical system test preparation. (See K2–72 Mechanical System Test Preparation.)
2. Connect a tachometer.
3. Start the engine.
4. Shift the selector lever to D range.
Caution
•Do not maintain WOT in any gear range for more than 5 seconds or transaxle damage will occur.
•If engine speed recorded by the tachometer exceeds maximum specified rpm, release the
accelerator pedal immediately. Clutch or band slippage is indicator.
5. Firmly depress the brake pedal with the left foot, and gently depress the accelerator pedal to the floor (WOT)
with the right.
6. When the engine speed no longer increases, quickly read the engine speed and release the accelerator pedal.
7. Shift the selector the to N position and let the engine idle for 1 minute or more to cool the ATF.
8. Perform stall tests for the remaining ranges and position in the same manner.
•R position
•Mrange (1GR, 2GR)
Engine stall speed
ATF temperature : 60—70 °C {140—158 °F}
Turn off all electrical loads
2,200—2,600 rpm
9. Turn off the engine.
Evaluation of stall test
Condition Possible cause
IdleBelow specificationLow pressure in all rangesWorn oil pump
Poor operation of each solenoid
Fluid leaking from oil strainer, oil pump, pressure regulator
valve, torque converter relief valve, and/or pressure relief valve
Pressure regulator valve or pilot valve sticking
Damaged pressure regulator valve spring or pilot valve spring
Low pressure in D and M
rangeFluid leaking from hydraulic circuit of low clutch
Low pressure in R position
onlyFluid leaking from hydraulic circuit of reverse clutch
Fluid leaking from hydraulic circuit of low and reverse brake
clutch
Above specification High pressure in all rangesThrottle position sensor out of adjustment
TFT sensor malfunction
Poor operation of shift solenoid
Pilot valve sticking
Pressure reducing valve or plug sticking
Stall Below specification Low pressure in all rangesThrottle position sensor out of adjustment
Pressure control solenoid malfunction
Poor operation of shift solenoid
Pilot valve sticking
Pressure reducing valve or plug sticking
Condition Possible cause
Above specificationIn all forward ranges and R
positionInsufficient line pressure
Worm oil pump
Poor operation of low clutch
Poor adjustment or malfunction of TR switch
Oil leaking from oil pump, control valve, and/or transmission
case
Pressure regulator valve or pilot valve sticking
In all forward ranges Low clutch slippage
Low one-way clutch slippage
Reduction one-way clutch slippage
In R positionLow and reverse brake slippage
Reverse clutch slippage
Reduction brake slippage
Below specificationIn all forward ranges and R
positionEngine out of tune
One-way clutch slippage within torque converter

ELECTRONIC 4WD CONTROL SYSTEM
M–9
M
End Of SieELECTRONIC CONTROL COUPLINGA6E632227100202Outline
Features
•An electromagnetic clutch, which operates smoothly due to the lack influence from the front and rear wheel
traction force, has been adopted for the electronic control coupling system.
•The construction of the coupling enables the torque formed by the pilot clutch to be amplified by the cam
mechanism, thus allowing the main clutch to obtain a high degree of torque. Due to this, size and weight
reduction of the component parts has been achieved.
Construction
•The electronic control coupling basically consists of an electromagnetic clutch, a cam mechanism and a torque
transmission system.
•The electromagnetic clutch consists of a 4WD solenoid (electromagnetic coil), rear-housing that forms a
magnetic path, pilot clutch, and armature. The cam mechanism consists of a pilot cam, balls, and main cam.
The torque transmission system consists of a main clutch and hydraulic oil (ATF).
.
9
8
7
5
43
10
13
1112
6
12
A6E63222003
1 Front wheel side
2 Rear wheel side
3 Torque transmission system
4 Electromagnetic clutch
5 Rear housing
6 4WD solenoid (Electromagnetic coil)
7 Cam mechanism8Ball
9 Main clutch
10 Main cam
11 Armature
12 Pilot clutch
13 Pilot cam

ELECTRONIC 4WD CONTROL SYSTEM
M–11
M
4WD solenoid control current is ON
•When the 4WD solenoid control current is ON, current flows from the 4WD CM to the 4WD solenoid, and the
coupling operates in the following manner.
1. Magnetic flux forms at the electromagnetic coil of the 4WD solenoid.
2. Due to the magnetic flux in the armature, the pilot clutch is suctioned towards the magnetic coil side and
made to engage. This causes frictional torque to generate in the pilot clutch.
3. The torque is transmitted to the pilot cam, which is engaged with the pilot clutch.
4. A rotational difference is created between the pilot cam and the main cam. Due to this relative torsion, the
cam mechanism operates, transmitting torque from the pilot cam to the ball and then to the main cam. In
this way, the push force exerted on the main clutch is amplified.
5. As the main clutch engages, the drive torque from the front wheels is transmitted to the rear wheels.
•The amount of push force exerted on the main clutch by the main cam (that is, the strength of the drive torque
transmitted to the rear wheels) changes in accordance with the proportion of the force acting upon the pilot
cam, engaged with the pilot clutch. Therefore, by changing the periodicity of the electric current from the 4WD
CM to the 4WD solenoid (ON/OFF rate of the 4WD solenoid = force acting on the pilot cam), the module
controls the transmission of drive torque to the rear wheels.
.
End Of Sie
98
75
4
3
10
11
6
12
56
7
12
A6E63222005
1 Main clutch
2Pilot clutch
3 4WD solenoid (Electromagnetic coil)
4 4WD control modure (4WD CM)
5Main cam
6Pilot cam7Ball
8Armature
9 Drive torque
10 Magnetic flux
11 Input
12 Output

M–68
ELECTRONIC 4WD CONTROL SYSTEM
COUPLING COMPONENT REMOVAL/INSTALLATIONA6E6322271002141. Drain the differential oil into a container.
2. Remove the after silencer, presilencer, and the catalytic converter. (See F1–30 EXHAUST SYSTEM
REMOVAL/INSTALLATION.)
3. Remove the propeller shaft. (See L–5 PROPELLER SHAFT REMOVAL/INSTALLATION.)
4. Remove in the order indicated in the table.
5. Install in the reverse order of removal.
6. Add differential oil.
.
Coupling Component Removal Note
1. Support the coupling unit with a transmission jack.
2. Cut away the coupling unit using an oil pan seal
cutter.
Coupling Component Installation Note
Note
•Clean away the old sealant before applying the new sealant.
•Install the coupling unit within 10 minutes after applying sealant.
•Allow the sealant to set at least 30 minutes after installation before filling the differential with the specified
oil.
3
12
SEALANTSEALANT
74.5—104.9
{7.6—10.6, 55.0—77.3}22.6—26.4
{2.4—2.6, 16.7—19.4}
N·m {kgf·m, ft·lbf}
A6E63222106
1 4WD solenoid connector
2Bolt3 Coupling component
(See M–68 Coupling Component Removal Note)
(See M–68 Coupling Component Installation Note)
OIL PAN
SEAL CUTTER
A6E63222107