2000 TOYOTA CAMRY check engine

R13897
Inscribed Mark
R11288
R07591
Compressed Air
R11563Inscribed Mark SR±24
± STEERINGPOWER STEERING VANE PUMP
2119 Author: Date:
5S±FE and 1MZ±FE Engines:
Inscribed mark: 1, 2, 3, 4 or None
HINT:
There are 5 vane lengths with the following rotor and cam ring
marks:
5S±FE and 1MZ±FE Engines:
Rotor and cam
ring markVane plate part
numberVane plate length
mm (in.)
None44345±2601014.999±15.001
(0.59051±0.59059)
144345±2602014.997±14.999
(0.59043±0.59051)
244345±2603014.995±14.997
(0.59035±0.59043)
344345±2604014.993±14.995
(0.59027±0.59035)
444345±2605014.991±14.993
(0.59020±0.59027)
3. INSPECT FLOW CONTROL VALVE
(a) Coat the valve with power steering fluid and check that it
falls smoothly into the valve hole by its own weight.
(b) Check the valve for leakage. Close one of the holes and
apply 392±490 kPa (4±5 kgf/cm
2, 57±71 psi) of com-
pressed air into the opposite side, and confirm that air
does not come out from the end holes.
If necessary, replace the valve with one having the same letter
as inscribed on the front housing.
5S±FE and 1MZ±FE Engines:
Inscribed mark: A, B, C, D, E or F

W03086
F02267
1
2
F01195
Bolt
Adjusting
ValueSet Bolt
15'
30'Adjusting Bolt90105±15001 90105±15004 90105±15005 90105±15006
45'
1°00'
1°15'
1°30'121212121 Dot 2 Dots 3 Dots
± SUSPENSION AND AXLEFRONT WHEEL ALIGNMENT
SA±5
1956 Author: Date:
5. ADJUST CAMBER
NOTICE:
After the camber has been adjusted, inspect the toe±in.
(a) Remove the front wheels and speed sensor clamp.
(b) Remove the 2 nuts on the lower side of the shock absorb-
er.
(c) Coat the threads of the nuts with engine oil.
(d) Temporarily install the 2 nuts.
(e) Adjust the camber by pushing or pulling the lower side of
the shock absorber in the direction in which the camber
adjustment is required.
(f) Tighten the nuts.
Torque: 211 N´m (2,150 kgf´cm, 156 ft´lbf)
(g) Install the front wheels.
Torque: 103 N´m (1,050 kgf´cm, 76 ft´lbf)
(h) Check the camber.
HINT:

Try to adjust the camber to the center value.

Adjusting value for the set bolts is 6' ± 30' (0.1° ± 0.5°).
If the camber is not within the specification, using the table be-
low, estimate for how much additional camber adjustment will
be required, and select the camber adjusting bolt.
(i) Follow the above mentioned steps again. Between step
(b) and (c), exchange 1 or 2 selected bolts.
HINT:
When exchanging the 2 bolts, exchange 1 bolt for each time.

BR002±94
BRAKE VIBRATION AND/OR PULSATIONPage 4 of 6
3) Advantages Of Using An On±Car Brake Lathe
Toyota Motor Corporation Engineers strongly recommend that an on±car brake lathe be used
for repairing brake vibration and pulsation. This method improves rotor and hub combined
runout, and is the preferred method when compared to rotor replacement and off±the±car rotor
machining.
A. Technical Advantage of Caliper Mounted Brake Lathe
± Installing the brake lathe in the same position as the caliper results in minimal runout
relative to the caliper.
± Eliminating this runout minimizes the pad grinding on the rotor and reduces rotor
thickness variation.
B. Practical Use Benefits
± Resurfacing rotors on vehicles with rotor/hub assemblies can be performed easily.
± Vehicles with corrosion between hub and rotor flanges can be machined without
removing rotor from hub.
4) Rotor Replacement And Off±Car Brake Lathe Procedures
If an on±car brake lathe is not available at your dealership, it may be necessary to use an off±car
lathe or replace rotors. In order to ensure proper brake vibration and pulsation repairs, pay close
attention to the following precautions:
A. Off±Car Brake Lathe Precautions
± Perform routine maintenance of brake lathe components (clearance of arbor shaft to
adapters may need to be repaired).
± Clean all adapters and shaft to maintain accuracy of equipment.
± When installing rotor to machine, clean mud, rust, and/or foreign material from the
adapters and rotors.
± After installing rotor on machine, check rotor runout using dial indicator. If runout is
excessive, determine the cause and correct it.
± Follow lathe manufacturer repair procedures. Do not cut excessive amounts off rotor
during the first cut to save time.
Anytime a rotor is machined it must be measured for minimum rotor thickness. The
thickness for the rotor is never to be less than minimum thickness as specified in the
appropriate repair manual.

Toyota Supports ASE CertificationPage 1 of 1
EG002±00
Title:
DIAGNOSTIC TROUBLE CODE P1133
Models:
'97 ± '99 Camry: 1MZ±FE CA Spec.
Technical Service
BULLETIN
February 25, 2000

TSB Revision Notice:
The information updated in this TSB is red
and underlined.
Under certain driving conditions, some 1MZ±FE equipped 1997 ± 1999 Camry California
Emission specification vehicles can exhibit a M.I.L. ªONº DTC P1133. An improved
Air/Fuel Ratio Sensor has been developed to correct this condition.
1997 ± 1999 Camry (1MZ±FE) with California Emission Specification.
MODEL YEARENGINESTARTING VIN
1999 Camry1MZ±FE4T1BF2#K * XU088001
4T1BF2#K * XU933227
PREVIOUS PART NUMBERCURRENT PART NUMBERPART NAME
89467±4102089467±41021Sensor, Air/Fuel
Should a M.I.L. ªONº condition with DTC P1133 be encountered, perform diagnostic
procedures as described in the Repair Manual.
If the problem source cannot be identified after checking all affected areas according
to the Repair Manual, the cause may be an Air/Fuel Ratio Sensor malfunction. In this
case, replace the Air/Fuel Ratio Sensor with the current part number listed above.
If the Exhaust Manifold threads are damaged by removal of the sensor, they can be
repaired by the proper use of a M18 x 1.5 tap.
OP CODEDESCRIPTIONTIMEOPNT1T2
895131R & R Air/Fuel Ratio Sensor0.389467±410209999
Applicable Warranty*:
This repair is covered under the Toyota Basic Warranty. This warranty is in effect for
36 months or 36,000 miles, whichever occurs first, from the vehicle's in±service date.
Coverage is extended to 36 months or 50,000 miles, whichever occurs first, in the
states of California and Massachusetts due to state emissions warranty legislation.
NOTE:
Please enter the DTC in the condition/Cause/Remedy section when applying for
warranty reimbursement.
* Warranty application is limited to correction of a problem based upon a customer's specific complaint.
ENGINE
Introduction
Applicable
Vehicles
Production
Change
Information
Parts
Information
Repair
Procedure
Warranty
Information

READINESS MONITOR DRIVE PATTERNS ± EG003-02 RevisedMarch 29, 2002
Page 10 of 23
DRIVE PATTERN NO. 1: EGR Monitor (All Except 1FZ±FE Engine)
Warm up
10 min
43 ± 56 mph
(70 ± 90 km/h)
Idling
IG SW off
3 ± 5 min 3 ± 5 min3 ± 5 min
(b)3 ± 5 min
(c)
(d) (a)
Preconditions
The monitor will not run unless:

MIL is OFF.

Altitude is 7800 feet (2400 m) or less.

IAT (Intake Air) is 14F (±10C) or greater.
Drive Pattern Procedure
Connect the OBDII Scantool to the DLC3 connector to check monitor status and
preconditions.
a. If IAT (Intake Air) is less than 50F (10C) when starting the engine, idle the
engine for approximately 10 minutes.
b. Drive the vehicle at 43 ± 56 mph (70 ± 90 km/h) for a period of 3 ± 5 minutes.
NOTE:

Do not allow the Throttle Position (TP) to exceed 30%.

Drive with smooth throttle operation and avoid sudden acceleration.
c. Stop the vehicle and let the engine idle for 3 ± 5 minutes.
d. Repeat steps ªbº and ªcº once.
If readiness status does not switch to ªcomplete,º ensure preconditions are met, turn the
ignition OFF, then repeat steps ªbº through ªd.º
NOTE:
The readiness status may not switch to ªcompleteº after the first drive pattern trip if a
Pending Code has been set (first trip for a two±trip DTC).

Pending Codes are available from the DTC Info Menu in Enhanced OBDII.

Pending Codes indicate a POTENTIAL problem was detected. A second trip is
needed to confirm the DTC prior to diagnosis.

Once a second trip is completed, a current DTC will be stored. Readiness
Monitor
Drive
Patterns:
EGR Monitors

READINESS MONITOR DRIVE PATTERNS ± EG003-02 RevisedMarch 29, 2002
Page 11 of 23
DRIVE PATTERN NO. 2: EGR Monitor (for 1FZ±FE Engine)
43 ± 56 mph
(70 ± 90 km/h)
Idling
IG SW off
3 ± 5 min 3 ± 5 min
3 ± 5 min
(b)3 ± 5 min
(c) (a)
Preconditions
The monitor will not run unless:

MIL is OFF.

Altitude is 7800 feet (2400 m) or less.

IAT (Intake Air) is 14F (±10C) or greater.

ECT (Coolant Temp) is less than 104F (40C).
Drive Pattern Procedure
Connect the OBDII Scantool to DLC3 to check monitor status and preconditions.
a. Start the engine and as soon as safely possible begin driving the vehicle at 43 ±
56 mph (70 ± 90 km/h) for a period of 3 ± 5 minutes.
NOTE:

Do not allow the Throttle Position (TP) to exceed 30%.

Drive with smooth throttle operation and avoid sudden acceleration.
b. Stop the vehicle and let the engine idle for 3 ± 5 minutes.
c. Repeat steps ªaº and ªbº once.
If readiness status does not switch to ªcomplete,º ensure preconditions are met, turn the
ignition OFF, then repeat steps ªaº through ªc.º
NOTE:
The readiness status may not switch to ªcompleteº after the first drive pattern trip if a
Pending Code has been set (first trip for a two±trip DTC).

Pending Codes are available from the DTC Info Menu in Enhanced OBDII.

Pending Codes indicate a POTENTIAL problem was detected. A second trip is
needed to confirm the DTC prior to diagnosis.

Once a second trip is completed, a current DTC will be stored. Readiness
Monitor
Drive
Patterns:
EGR Monitors
(Continued)

READINESS MONITOR DRIVE PATTERNS ± EG003-02 RevisedMarch 29, 2002
Page 12 of 23
DRIVE PATTERN NO. 3: Catalyst Monitor (O2S Type)
40 ± 50 mph
(64 ± 88 km/h)
35 ± 45 mph
(56 ± 72 km/h)
Idling
IG SW off
Warm up
ECT.176FIAT < 50F = 7 min
IAT > 50F = 3 min
(a)7 min
(b)
Preconditions
The monitor will not run unless:

MIL is OFF.

ECT (Coolant Temp) is 176F (80C) or greater.

IAT (Intake Air) is 14F (±10C) or greater.*
* For 2002 MY and later vehicles: The readiness test can be completed in cold ambient conditions
(less than 14F / ±10C), if the drive pattern is repeated a second time after cycling the ignition OFF.
Drive Pattern Procedure
Connect the OBDII Scantool to DLC3 to check monitor status and preconditions.
Note the IAT (Intake Air) value during engine startup. The driving time must be adjusted
during step ªaº based upon IAT (Intake Air) value at startup.
a. Drive the vehicle at 40 ± 55 mph (64 ± 88 km/h) for the time described below:

If IAT (Intake Air) was less than 50F (10C) when the engine was started,
drive for 7 minutes.

If IAT (Intake Air) was greater than 50F (10C) when the engine was started,
drive for 3 minutes.
b. Drive the vehicle at 35 ± 45 mph (56 ± 72 km/h) for approximately 7 minutes.
NOTE:

Drive with smooth throttle operation.

Avoid sudden acceleration.

Avoid sudden deceleration as much as possible with the throttle fully closed.
If readiness status does not switch to ªcomplete,º ensure preconditions are met, turn the
ignition OFF, then repeat steps ªaº and ªb.º
NOTE:
The readiness status may not switch to ªcompleteº after the first drive pattern trip if a
Pending Code has been set (first trip for a two±trip DTC).

Pending Codes are available from the DTC Info Menu in Enhanced OBDII.

Pending Codes indicate a POTENTIAL problem was detected. A second trip is
needed to confirm the DTC prior to diagnosis.

Once a second trip is completed, a current DTC will be stored. Readiness
Monitor
Drive
Patterns:
Catalyst
Monitors

READINESS MONITOR DRIVE PATTERNS ± EG003-02 RevisedMarch 29, 2002
Page 13 of 23
DRIVE PATTERN NO. 4: Catalyst Monitor (AF Sensor Type)
IAT < 50F = 7 min
IAT > 50F = 3 min
(a)
40 ± 50 mph
(64 ± 88 km/h)
Idling
IG SW off
16 min
(b) 35 ± 45 mph
(56 ± 72 km/h)
Warm up
ECT.176F
Preconditions
The monitor will not run unless:

MIL is OFF.

ECT (Coolant Temp) is 176F (80C) or greater.

IAT (Intake Air) is 14F (±10C) or greater.*
* For 2002 MY and later vehicles: The readiness test can be completed in cold ambient conditions
(less than 14F / ±10C), if the drive pattern is repeated a second time after cycling the ignition OFF.
Drive Pattern Procedure
Connect the OBDII Scantool to DLC3 to check monitor status and preconditions.
Note the IAT (Intake Air) value during engine startup. The driving time must be adjusted
during step ªaº based upon IAT (Intake Air) value at startup.
a. Drive the vehicle at 40 ± 55 mph (64 ± 88 km/h) for the time described below:

If IAT (Intake Air) was less than 50F (10C) when the engine was started,
drive for 7 minutes.

If IAT (Intake Air) was greater than 50F (10C) when the engine was started,
drive for 3 minutes.
b. Drive the vehicle allowing speed to fluctuate between 35 ± 45 mph (56 ± 72 km/h)
for about 16 minutes.
NOTE:

Drive with smooth throttle operation.

Avoid sudden acceleration.

Avoid sudden deceleration as much as possible with the throttle fully closed.
If readiness status does not switch to ªcomplete,º ensure preconditions are met, turn the
ignition OFF, then repeat steps ªaº and ªb.º
NOTE:
The readiness status may not switch to ªcompleteº after the first drive pattern trip if a
Pending Code has been set (first trip for a two±trip DTC).

Pending Codes are available from the DTC Info Menu in Enhanced OBDII.

Pending Codes indicate a POTENTIAL problem was detected. A second trip is
needed to confirm the DTC prior to diagnosis.

Once a second trip is completed, a current DTC will be stored. Readiness
Monitor
Drive
Patterns:
Catalyst
Monitors
(Continued)