2000 TOYOTA CAMRY ECO mode

CAMRY ± NEW FEATURES54
1MZ-FE ENGINE
The following items have been changed in the '00 CAMRY.
The system for detecting evaporative emission leaks has been changed.
For details, see the General 2000 Features section.
A thermostat monitor function has been newly provided. This function monitors the changes in the coolant
temperature at the time the engine is started, and if the coolant temperature does not reach a specified value
within a prescribed length of time, the thermostat is determined to be faulty.
AUTOMATIC TRANSAXLE
As in the 5S-FE engine model, the A140E automatic transaxle is used on the 5S-FNE engine model.
The gear ratio of the differential has been lowered to accommodate the performance of the 5S-FNE engine
and to ensure fuel economy.

Specifications 
Item
5S-FNE Engine5S-FE Engine
1st2.810
2nd1.549
Gear Ratio3rd1.000
4th (Overdrive)0.706
Reverse2.296
Counter Gear Ratio0.945
Differential Gear Ratio4.1763.944
Fluid Capacity
Liters
Transmission5.6 (5.9, 4.9)
Liters
(US qts, Imp. qts)
Differential1.6 (1.7, 1.4)
Fluid TypeATF D-II or
DEXRON)III (DEXRON)II)

APPENDIX ± CAMRY
ItemArea
Body Type
Vehicle Grade
Model Code
OverallLength mm (in.)
Width mm (in.)
Height* mm (in.)
Wheel Base mm (in.)
TreadFront mm (in.)
Rear mm (in.)
Effective Head RoomFront mm (in.)
Rear mm (in.)
Front mm (in.)
Rear mm (in.)
Front mm (in.)
Rear mm (in.)
Front mm (in.)
Rear mm (in.) Effective Leg Room
Shoulder Room
Overhang
Min. Running Ground Clearance mm (in.)
Angle of Approach degrees
Angle of Departure degrees
Curb Weight
Gross Vehicle WeightFront kg (lb)
Rear kg (lb)
Total kg (lb)
Front kg (lb)
Rear kg (lb)
Total kg (lb)
Fuel Tank Capacity (US.gal., Imp.gal)
Luggage Compartment Capacity m
3 (cu.ft.)
Max. Speed km / h (mph)
Max. Cruising Speed km / h (mph)
Acceleration
Max. Permissible
Speed
Turning Diameter
(Outside Front)0 to 100 km / h sec.
0 to 400 m sec.
1st Gear km / h (mph)
2nd Gear km / h (mph)
3rd Gear km / h (mph)
4th Gear km / h (mph)
Wall to Wall m (ft.)
Curb to Curb m (ft.)
Engine Type
Valve Mechanism
Bore x Stroke mm (in.)
Displacement cm
3 (cu.in.)
Compression Ratio
Carburetor Type
Research Octane No. RON
Max. Output (SAE-NET) kW / rpm (HP@rpm)
Max. Torque (SAE-NET) N
.m / rpm (lb-ft@rpm)
Battery Capacity (5HR) Voltage & Amp. hr.
Generator Output Watts
Starter Output kW
Clutch Type
Transaxle Type
Transmission Gear
Ratio
Counter Gear Ratio
Differential Gear Ratio (Final)
Brake Type
Parking Brake Type
Brake Booster Type and Size in.
Proportioning Valve Type
Suspension Type
Stabilizer Bar
Steering Gear Type
Steering Gear Ratio (Overall)
Power Steering TypeIn First
In Second
In Third
In Fourth
In Fifth
In Reverse
Front
Rear
Front
Rear
Front
Rear
5
10
15
20
25
30
35
40
45
50
55
60
65
70
Major Dimensions & Vehicle Weights Performance Engine Engine
Chassis
Electrical
U.S.A.
CE
LE 4-Door Sedan
XLE
11 2

CAMRY
SXV20L-CEMDKA SXV20L-CEPDKA SXV20L-A(C)EPNKA SXV20L-A(C)EPGKA
4790 (188.6)



1780 (70.1)

1785 (70.3)
1415 (55.7)



2670 (105.1)



1545 (60.8)



1520 (59.8)



980 (38.6), 950 (37.4)*
1



940 (37.0), 914 (36.0)*1



1102 (43.4)



901 (35.5)



1427 (56.2)



1425 (56.1)



975 (38.4)



1145 (45.1)



130 (5.1)



16



16



810 (1786) 835 (1841) 865 (1907)*
2, 875 (1929)*3870 (1918)*2, 875 (1929)*3
550 (1213) 545 (1202) 540 (1191)*2, 550 (1213)*3545 (1202)*2, 555 (1224)*3
1360 (2999) 1380 (3043) 1405 (3097)*2, 1425 (3142)*31415 (3120)*2, 1430 (3153)*3
965 (2130)
995 (2195)

845 (1860)
900 (1985)

1810 (3990)
1895 (4180)

70 (18.5, 15.4)



0.399 (14.1)



180 (112)



ÐÐÐÐ
ÐÐÐÐ
ÐÐÐÐ
52 (32) 69 (43)


93 (58) 125 (78)


147 (91) Ð Ð Ð
ÐÐÐÐ
11.5 (37.7)



11.0 (36.1)



5S-FE



16-Valve, DOHC



87.0 x 91.0 (3.43 x 3.58)



2164 (132.0)



9.5 : 1



SFI



91



101 / 5200(136@5200),99 / 5200(133@5200)*4


203 / 4400(150@4400),201 / 4400(148@4400)*4



12 - 55, 12 - 48*5



960



1.4



Dry, Single Plate Ð Ð Ð
S51 A140E


3.538 2.810


1.960 1.549


1.250 1.000


0.945 0.706


0.731 Ð Ð Ð
3.153 2.296


Ð 0.945


3.944



Ventilated Disc



L.T. Drum



Drum



Tandem 8º + 9º
Tandem 8.5º + 8.5º*
2, 8º + 9º*3

Dual-P Valve



MacPherson Strut



MacPherson Strut



STD



STD



Rack and Pinion



17.4 : 1



Integral Type



*: Unladed Vehicle *
3: Produced by TMMK
*1: With Moor Roof *4: California Specification Model
*2: Produced by TMC *5: Without Cold Area Specification Model

APPENDIX ± CAMRY
ItemArea
Body Type
Vehicle Grade
Model Code
OverallLength mm (in.)
Width mm (in.)
Height* mm (in.)
Wheel Base mm (in.)
TreadFront mm (in.)
Rear mm (in.)
Effective Head RoomFront mm (in.)
Rear mm (in.)
Front mm (in.)
Rear mm (in.)
Front mm (in.)
Rear mm (in.)
Front mm (in.)
Rear mm (in.) Effective Leg Room
Shoulder Room
Overhang
Min. Running Ground Clearance mm (in.)
Angle of Approach degrees
Angle of Departure degrees
Curb Weight
Gross Vehicle WeightFront kg (lb)
Rear kg (lb)
Total kg (lb)
Front kg (lb)
Rear kg (lb)
Total kg (lb)
Fuel Tank Capacity (US.gal., Imp.gal)
Luggage Compartment Capacity m
3 (cu.ft.)
Max. Speed km / h (mph)
Max. Cruising Speed km / h (mph)
Acceleration
Max. Permissible
Speed
Turning Diameter
(Outside Front)0 to 100 km / h sec.
0 to 400 m sec.
1st Gear km / h (mph)
2nd Gear km / h (mph)
3rd Gear km / h (mph)
4th Gear km / h (mph)
Wall to Wall m (ft.)
Curb to Curb m (ft.)
Engine Type
Valve Mechanism
Bore x Stroke mm (in.)
Displacement cm
3 (cu.in.)
Compression Ratio
Carburetor Type
Research Octane No. RON
Max. Output (SAE-NET) kW / rpm (HP@rpm)
Max. Torque (SAE-NET) N
.m / rpm (lb-ft@rpm)
Battery Capacity (5HR) Voltage & Amp. hr.
Generator Output Watts
Starter Output kW
Clutch Type
Transaxle Type
Transmission Gear
Ratio
Counter Gear Ratio
Differential Gear Ratio (Final)
Brake Type
Parking Brake Type
Brake Booster Type and Size in.
Proportioning Valve Type
Suspension Type
Stabilizer Bar
Steering Gear Type
Steering Gear Ratio (Overall)
Power Steering TypeIn First
In Second
In Third
In Fourth
In Fifth
In Reverse
Front
Rear
Front
Rear
Front
Rear
Major Dimensions & Vehicle Weights Performance Engine Engine
Chassis
Electrical
Canada
XLE 4-Door Sedan
CE
5
10
15
20
25
30
35
40
45
50
55
60
65
70 U.S.A.
LE 4-Door Sedan
11 4
MCV20L-AEPDKK MCV20L-AEPGKK SXV23L-AEPNCA
4790 (188.6)


1780 (70.1) 1785 (70.3) 1780 (70.1)
1420 (55.9)


2670 (105.1)


1545 (60.8)


1520 (59.8)


980 (38.6), 950 (37.4)*
1
980 (38.6)
940 (37.0), 914 (36.0)*1
940 (37.0)
1102 (43.4)


901 (35.5)


1427 (56.2)


1425 (56.1)


975 (38.4)


1145 (45.1)


135 (5.3)
130 (5.1)
16
16
16
16
860 (1896) 920 (2028) 860 (1896)
540 (1190) 545 (1202) 595 (1312)
1400 (3086) 1465 (3230) 1455 (3208)
1040 (2290)
970 (2140)
900 (1985)
950 (2095)
1940 (4275)
1920 (4235)
70 (18.5, 15.4)

135 (35.7, 29.2)*4, 43 (11.4, 9.5)*5
0.399 (14.1)
0.332 m3 *6, 8.921 ft3 *7
210 (130)
180 (112)
Ð
Ð
ÐÐÐ
ÐÐÐ
70 (43)
66 (41)
127 (79)
119 (74)
ÐÐÐ
ÐÐÐ
11.9 (39.0)


11.4 (37.4)


1MZ-FE
5S-FNE
24-Valve, DOHC
16-Valve, DOHC
87.5 x 83.0 (3.44 x 3.27)
87.0 x 91.0 (3.43 x 3.58)
2995 (182.7)
2164 (132.0)
10.5 : 1
11.0 : 1
SFI


91 or higher
130
145 / 5200 (194@5200)
88 / 5200 (118@5200)
283 / 4400 (209@4400)
178 / 2400 (131@2400)
12 - 55


960


1.4


ÐÐÐ
A541E
A140E
2.810
2.810
1.549
1.549
1.000
1.000
0.735
0.706
ÐÐÐ
2.296




0.945
3.933
4.176
Ventilated Disc


Solid Disc
L.T. Drum
Drum


Tandem 8º + 9º
Tandem 8.5º + 8.5º*2, 8º + 9º*3Tandem 8º + 9º
Dual-P Valve


MacPherson Strut


MacPherson Strut


STD


STD


Rack and Pinion


17.4 : 1


Integral Type


*: Unladed Vehicle *
4: Water Volume
*1: With Moon Roof *5: Equivalent Gasoline Capacity
*2: Produced by TMC *6: VDA
*3: Produced by TMMK *7: SAE Suitcase

CAMRY - MAJOR TECHNICAL SPECIFICATIONS
1st Gear km / h (mph) Angle of Approach degrees
Angle of Departure degrees
ItemArea
Body Type
Vehicle Grade
Model Code
OverallLength mm (in.)
Width mm (in.)
Height*
1mm (in.)
Wheel Base mm (in.)
TreadFront mm (in.)
Rear mm (in.)
Effective Head RoomFront mm (in.)
Rear mm (in.)
Front mm (in.)
Rear mm (in.)
Front mm (in.)
Rear mm (in.)
Front mm (in.)
Rear mm (in.) Effective Leg Room
Shoulder Room
Overhang
Min. Running Ground Clearance mm (in.)
Curb Weight
Gross Vehicle WeightFront kg (lb)
Rear kg (lb)
Total kg (lb)
Front kg (lb)
Rear kg (lb)
Total kg (lb)
Fuel Tank Capacity (US.gal., lmp.gal)
Luggage Compartment Capacity m
3 (cu.ft.)
Max. Speed km / h (mph)
Max. Cruising Speed km / h (mph)
Max. Permissible
Speed
Turning Diameter
(Outside Front)2nd Gear km / h (mph)
3rd Gear km / h (mph)
4th Gear km / h (mph)
Wall to Wall m (ft.)
Curb to Curb m (ft.)
Engine Type
Valve Mechanism
Bore x Stroke mm (in.)
Displacement cm
3 (cu.in.)
Compression Ratio
Carburetor Type
Research Octane No. RON
Max. Output (SAE-NET) kW / rpm (HP@rpm)
Max. Torque (SAE-NET) N
.m / rpm (lb-ft@rpm)
Battery Capacity (5HR) Voltage & Amp. hr.
Generator Output Watts
Starter Output kW
Clutch Type
Transaxle Type
Transmission Gear
Ratio
Differential Gear Ratio (Final)
Brake Type
Parking Brake Type
Brake Booster Type and Size in.
Proportioning Valve Type
Suspension Type
Stabilizer Bar
Steering Gear Type
Steering Gear Ratio (Overall)
Power Steering TypeIn First
In Second
In Third
In Fourth
In Fifth
In Reverse
Front
Rear
Front
Rear
Front
Rear
5
10
15
20
25
30
35
40
45
50
55
60
65
70
Major Dimensions & Vehicle Weights Performance Engine Engine
Chassis
Electrical
U.S.A.
4-Door Sedan
CEXLE
0 to 100 mph sec.
0 to 400 m sec. Acceleration
Counter Gear RatioLE
4
MAJOR TECHNICAL SPECIFICATIONS
SXV20L-CEMDKA SXV20L-CEPDKA SXV20L-A(C)EPNKA SXV20L-A(C)EPGKA
4790 (188.6)



1780 (70.1)

1785 (70.3)
1415 (55.7)



2670 (105.1)



1545 (60.8)



1520 (59.8)



980 (38.6), 950 (37.4)*
2



940 (37.0), 914 (36.0)*2



1102 (43.4)



901 (35.5)



1427 (56.2)



1425 (56.1)



975 (38.4)



1145 (45.1)



130 (5.1)



16




16




810 (1786) 835 (1841) 865 (1907)*
3, 875 (1929)*4870 (1918)*3, 875 (1929)*4
550 (1213) 545 (1202) 540 (1191)*3, 550 (1213)*4545 (1202)*3, 555 (1224)*4
1360 (2999) 1380 (3043) 1405 (3097)*3, 1425 (3142)*41415 (3120)*3, 1430 (3153)*4
965 (2130)
995 (2195)

845 (1860)
900 (1985)

1810 (3990)
1895 (4180)

70 (18.5, 15.4)



0.399 (14.1)



180 (112)



ÐÐÐÐ
ÐÐÐÐ
ÐÐÐÐ
52 (32) 69 (43)


95 (58) 125 (78)


147 (91) Ð Ð Ð
ÐÐÐÐ
11.5 (37.7)



11.0 (36.1)



5S-FE



16-Valve, DOHC



87.0 x 91.0 (3.43 x 3.58)



2164 (132.0)



9.5 : 1



SFI



91 or Higher



99 / 5200 (133@5200)



201 / 4400 (148@4400)



12-55, 12-48*
5



960



1.4



Dry, Single Plate Ð Ð Ð
S51 A140E


3.538 2.810


1.960 1.549


1.250 1.000


0.945 0.706


0.731 Ð Ð Ð
3.153 2.296


Ð 0.945


3.944



Ventilated Disc



L.T. Drum



Drum



Tandem 8º + 9º
Tandem 8.5º + 8.5º*
3, 8º + 9º*4

Dual-P Valve



MacPherson Strut



MacPherson Strut



STD



STD



Rack and Pinion



17.4 : 1



Integral Type



*
1: Unladed Vehicle *4: Produced by TMMK
*2: With Moor Roof *5: Without Cold Area Specification Model
*3: Produced by TMC

CAMRY - MAJOR TECHNICAL SPECIFICATIONS
1st Gear km / h (mph) Angle of Approach degrees
Angle of Departure degrees
ItemArea
Body Type
Vehicle Grade
Model Code
OverallLength mm (in.)
Width mm (in.)
Height*
1mm (in.)
Wheel Base mm (in.)
TreadFront mm (in.)
Rear mm (in.)
Effective Head RoomFront mm (in.)
Rear mm (in.)
Front mm (in.)
Rear mm (in.)
Front mm (in.)
Rear mm (in.)
Front mm (in.)
Rear mm (in.) Effective Leg Room
Shoulder Room
Overhang
Min. Running Ground Clearance mm (in.)
Curb Weight
Gross Vehicle WeightFront kg (lb)
Rear kg (lb)
Total kg (lb)
Front kg (lb)
Rear kg (lb)
Total kg (lb)
Fuel Tank Capacity (US.gal., lmp.gal)
Luggage Compartment Capacity m
3 (cu.ft.)
Max. Speed km / h (mph)
Max. Cruising Speed km / h (mph)
Max. Permissible
Speed
Turning Diameter
(Outside Front)2nd Gear km / h (mph)
3rd Gear km / h (mph)
4th Gear km / h (mph)
Wall to Wall m (ft.)
Curb to Curb m (ft.)
Engine Type
Valve Mechanism
Bore x Stroke mm (in.)
Displacement cm
3 (cu.in.)
Compression Ratio
Carburetor Type
Research Octane No. RON
Max. Output (SAE-NET) kW / rpm (HP@rpm)
Max. Torque (SAE-NET) N
.m / rpm (lb-ft@rpm)
Battery Capacity (5HR) Voltage & Amp. hr.
Generator Output Watts
Starter Output kW
Clutch Type
Transaxle Type
Transmission Gear
Ratio
Differential Gear Ratio (Final)
Brake Type
Parking Brake Type
Brake Booster Type and Size in.
Proportioning Valve Type
Suspension Type
Stabilizer Bar
Steering Gear Type
Steering Gear Ratio (Overall)
Power Steering TypeIn First
In Second
In Third
In Fourth
In Fifth
In Reverse
Front
Rear
Front
Rear
Front
Rear
5
10
15
20
25
30
35
40
45
50
55
60
65
70
Major Dimensions & Vehicle Weights Performance Engine Engine
Chassis
Electrical
Canada
4-Door Sedan
CE LE
0 to 100 km / h sec.
0 to 400 m sec. Acceleration
Counter Gear RatioXLE
U.S.A.
6
MCV20L-AEPDKK MCV20L-AEPGKK SXV23L-AEPNCA
4790 (188.6)


1780 (70.1) 1785 (70.3) 1780 (70.1)
1420 (55.9)


2670 (105.1)


1545 (60.8)


1520 (59.8)


980 (38.6), 950 (37.4)*
2
980 (38.6)
940 (37.0), 914 (36.0)*2
940 (37.0)
1102 (43.4)


901 (35.5)


1427 (56.2)


1425 (56.1)


975 (38.4)


1145 (45.1)


135 (5.3)
130 (5.1)
16

16

16

16

860 (1896) 920 (2028) 860 (1896)
540 (1190) 545 (1202) 595 (1312)
1400 (3086) 1465 (3230) 1455 (3208)
1040 (2290)
970 (2140)
900 (1985)
950 (2095)
1940 (4275)
1920 (4235)
70 (18.5, 15.4)

135 (35.7, 29.2)*5, 43 (11.4, 9.5)*6
0.399 (14.1)
0.332 m3 *7, 8.921 ft3 *8
210 (130)
180 (112)
Ð
Ð
ÐÐÐ
ÐÐÐ
70 (43)
66 (41)
127 (79)
119 (74)
ÐÐÐ
ÐÐÐ
11.9 (39.0)


11.4 (37.4)


1MZ-FE
5S-FNE
24-Valve, DOHC
16-Valve, DOHC
87.5 x 83.0 (3.44 x 3.27)
87.0 x 91.0 (3.43 x 3.58)
2995 (182.7)
2164 (132.0)
10.5 : 1
11.0 : 1
SFI


91 or higher
130
143 / 5200 (192@5200)
88 / 5200 (118@5200)
281 / 4400 (207@4400)
178 / 2400 (131@2400)
12-55


960


1.4


ÐÐÐ
A541E
A140E
2.810
2.810
1.549
1.549
1.000
1.000
0.735
0.706
ÐÐÐ
2.296




0.945
3.933
4.176
Ventilated Disc


Solid Disc
L.T. Drum
Drum


Tandem 8.5º + 8.5º


Dual-P Valve


MacPherson Strut


MacPherson Strut


STD


STD


Rack and Pinion


17.4 : 1


Integral Type


*
1: Unladed Vehicle *5: Water Volume
*2: With Moon Roof *6: Equivalent Gasoline Capacity
*3: Produced by TMC *7: VDA
*4: Produced by TMMK *8: SAE Suitcase

IDLE AND OR 2,500 RPM CO/HC
CHECK
HINT: This check is used only to determine whether or
not the idle CO/HC complies with regulations.
1. INITIAL CONDITIONS
(a) Engine at normal operating temperature
(b) Air cleaner installed
(c) All pipes and hoses of air induction system connected
(d) All accessories switched OFF
(e) All vacuum lines properly connected
HINT: All vacuum hoses for EGR systems, etc. should
be properly connected.
(f) MFI/SFI system wiring connectors fully plugged
(g) Ignition timing set correctly
(h) Transmission in neutral position
(i) Tachometer and CO/HC meter calibrated by hand.
4. INSERT CO/HC METER TESTING PROBE AT LEAST
40 cm (1.3 ft) INTO TAILPIPE DURING IDLING
5. IMMEDIATTELY CHECK CO/HC CONCENTRATION
AT IDLE AND/OR 2,500 RPM
Complete the measuring within 3 minutes.
HINT: When performing the 2 mode (2,500 rpm and
idle) test, follow the measurement order prescribed by
the applicable local regulations. 2. START ENGINE
3. RACE ENGINE AT 2,500 RPM FOR APPROX. 180
SECONDS
± 5S±FE ENGINEENGINE MECHANICALEG1±21

RADIATOR
The radiator performs the function of cooling the coolant which has passed through the water
jacket and become hot, and it is mounted in the front of the vehicle. The radiator consists of an
upper tank and lower tank, and a core which connects the two tanks. The upper tank contains the
inlet for coolant from the water jacket and the filler inlet. It also has a hose attached through
which excess coolant or steam can flow. The lower tank has an outlet and drain cock for the
coolant. The core contains many tubes through which coolant flows from the upper tank to the
lower tank as well as to cooling fins which radiate heat away from the coolant in the tubes. The
air sucked through the radiator by the electric fan, as well as the wind generated by the vehicle's
travel, passes through the radiator, cooling the coolant. Models with automatic transmission
include an automatic transmission fluid cooler built into the lower tank of the radiator. A fan with
an electric motor is mounted behind the radiator to assist the flow of air through the radiator. The
fan operates when the engine coolant temperature becomes high in order to prevent it from be-
coming too high.
RADIATOR CAP
The radiator cap is a pressure type cap which seals the radiator, resulting in pressurization of the
radiator as the coolant expands. The pressurization prevents the coolant from boiling even when
the engine coolant temperature exceeds 100°C (212°F). A relief valve (pressurization valve) and a
vacuum valve (negative pressure valve) are built into the radiator cap. The relief valve opens and
lets steam escape through the overflow pipe when the pressure generated inside the cooling sys-
tem exceeds the limit (coolant temperature: 110±120°C (230±248°F), pressure; 58.8103.0 kpa
(0.6±1.05 kgf/cm
2, 8.5±14.9 psi). The vacuum valve opens to alleviate the vacuum which develops
in the cooling system after the engine is stopped and the engine coolant temperature drops. The
valve's opening allows the coolant in the reservoir tank to return to the cooling system.
RESERVOIR TANK
The reservoir tank is used to catch coolant which overflows from the cooling system as a result
of volumetric expansion when the coolant is heated. The coolant in the reservoir tank returns to
the radiator when the coolant temperature drops, thus keeping the radiator full at all times and
avoiding needless coolant loss.
Check the reservoir tank level to learn if the coolant needs to be replenished.
WATER PUMP
The water pump is used for forced circulation of coolant through the cooling system. It is
mounted on the front of the cylinder block and driven by a timing belt.
THERMOSTAT
The thermostat has a wax type bypass valve and is mounted in the water inlet housing. The
thermostat includes a type of automatic valve operated by fluctuations in the engine coolant
temperature. This valve closes when the engine coolant temperature drops, preventing the
circulation of coolant through the engine and thus permitting the engine to warm up rapidly. The
valve opens when the engine coolant temperature has risen, allowing the circulation of coolant.
Wax inside the thermostat expands when heated and contracts when cooled. Heating the wax
thus generates pressure which overpowers the force of the spring which keeps the valve closed,
thus opening the valve. When the wax cools, its contraction allows the force of the spring to take
effect once more, closing the valve. The thermostat in this engine operates at a temperature of
82
C (180
F).
± 5S±FE ENGINECOOLING SYSTEMEG1±239

*1; ªONº displayed in the diagnosis mode column indicates that the Malfunction Indicator Lamp is lighted up when a
malfunction is detected. ªOFFº indicates that the ªCHECKº does not light up during malfunction diagnosis, even if a
malfunction is detected. ªN.A.º indicates that the item is not included in malfunction diagnosis.
*2; ªOº in the memory column indicates that a diagnostic trouble code is recorded in the ECM memory when a malfunction
occurs. ªXº indicates that a diagnostic trouble code is not recorded in the ECM memory even if a malfunction occurs.
Accordingly, output of diagnostic results in normal or test mode is performed with the IG switch ON.
*3; Only for California specification vehicles.
*4; Only vehicles with A/T.EGR gas temp. is 70C (158F) or below for 50 sec. under
conditions (a) and (b).
(2 trip detection logic)*
(a) Engine coolant temp.: 80C (176F) or more.
(b) EGR operation possible (Ex. A/T in 3rd speed (5th for
M/T), 55 ± 60 mph (88 ± 96 km/h), Flat road).
(1) 3 sec. or more after engine starts with closed throttle position
switch OFF (IDL).
(2) * Park/Neutral switch OFF (PNP).
(Shift position in ªRº, ªDº, ª2º, or ªLº positions).
(3) A/C switch ON. Open or short in knock sensor circuit with engine speed
between 1,200 rpm and 6,000 rpm.Diagnostic trouble Code
Detecting Condition
Switch Condition
SignalNo starter signal to ECM.
Knock Sensor
Signal
EG R System
Malfunction Number of
MIL Blinks
Starter Signal DTC
No.Circuit
± 5S±FE ENGINEDIAGNOSTIC TROUBLE CODE CHARTEG1±306