2000 TOYOTA CAMRY Actuator

7. TAP±UP CONTROL FUNCTION
When the difference between the actual vehicle speed and the set speed is less than 5 km/h (3 mph), the set speed can be
increased 1.6 km/h (1 mph) each time by operation the RESUME/ACCEL SW quickly within 0.6 seconds.
8. TAP±DOWN CONTROL FUNCTION
When the difference between the actual vehicle speed and the set speed is less than 5 km/h (3 mph), the set speed can be
lowered 1.6 km/h (1 mph) each time by operating the SET/COAST SW quickly within 0.6 seconds.
9. AUTO CANCEL FUNCTION
A) If any of the following operating conditions occurs during cruise control operation, the set speed is erased, the current
flow to the magnetic clutch is stopped and the cruise control is released. (Cruise SW turns off).
When this occurs, the ignition SW must be turned off once before the cruise SW will turn on.
*When current continued to flow to the motor inside the actuator in the throttle valve ºOPENº direction.
*The motor does not operate despite the motor drive signal being output.
B) If any of the following operating conditions occurs during cruise control operation, the set speed is erased, the current
flow to the magnetic clutch is stopped and the cruise control is released. (Cruise SW turn off).
When this occurs, the cancel state is cleared as the cruise SW will turn on again.
*Over current to transistor driving the motor and/or the magnetic clutch.
*Open circuit in the magnetic clutch.
*Momentary interruption of vehicle speed signal.
*Short circuit in the cruise control SW.
*When the vehicle speed falls more than 16 km/h (10 mph) below the set speed, E.G. on an upward slope.
C) If any of the following conditions occurs during cruise control operation, the set speed is erased and the cruise control is
released. (The power to the magnetic clutch is cut off until the set SW is ON again.)
*When the vehicle speed falls below the minimum speed limit, approx. 40 km/h (25 mph).
*When power to the cruise control system is momentarily cut off.
D) If any of the following conditions occurs during cruise control operation, the cruise control is released.
*Open the circuit for TERMINAL 2 of the stop light SW.
10. AUTOMATIC TRANSAXLE CONTROL FUNCTION
*In overdrive. If the vehicle speed becomes lower than the overdrive cut speed (Set speed minus approx. 4 km/h, 2.5 mph)
during cruise control operation, such as driving up a hill, the overdrive is released and the power increased to prevent a
reduction in vehicle speed.
*After releasing the overdrive, vehicle speed becomes higher than the overdrive return speed (Set speed minus approx. 2
km/h, 1.2 mph) and the cruise control ECU judges by the signals from the actuator's potentiometer that the upward slope
has finished, the overdrive is resumed after approximately 2 seconds.
*During cruise control driving, the cruise control operation signal is output from the cruise control ECU to the engine control
module. Upon receiving this signal, the engine control module changes the shift pattern to normal.
To maintain smooth cruise control operation (on a downward slope etc.), the lock±up release of the transmission when the
idling point of the throttle position is ON is forbidden.
C3 CRUISE CONTROL ACTUATOR
3±4 : Approx. 38.5 W
C12 CRUISE CONTROL SW [COMB. SW]
5±3 : Continuity with the CRUISE SW on
4±3 : Approx. 418 W with the CANCEL SW on
Approx. 68 W with the RESUME/ACCEL SW on
Approx. 198 W with the SET/COAST SW on
C15 CRUISE CONTROL ECU
9±GROUND :10±14 volts with the ignition SW at ON position
12±GROUND :4 pulses with 1 rotation of rotor shaft
10±GROUND : Approx. 418 W with the CANCEL SW on in the cruise control SW
Approx. 198 W with the SET/COAST SW on in the cruise control SW
Approx. 68 W with the RESUME/ACCEL SW on in the cruise control SW
16±GROUND : Always continuity
SERVICE HINTS

ABS AND TRACTION CONTROL
60A
FL ABS
2 1 FROM POWER SOURCE SYSTEM (
SEE PAGE 50)
36 2143
3
33 3 33 3
A 1A24
A 11
A 3 A 9A 13 A26
B4
EA E 1E 1 E 1C 9C10 SR GND3 GND2 SFRH SFRRR+ MR
SFRR SFRH
BS 23
14
W±RR±B W±B W±B W±RGR ±R
W±R GR W± L W± B W±B W±B
R±L
W± R
W±B W±B GR
GR±R
GR±L
GR± L
GR± R
R±L
ABS AND TRACTION ECU
ABS AND TRACTION
ACTUATOR W± L ABS
MOTOR
RELAY
ABS
SOL
RELAY
W±B 5
B A 7 A , A 8 B A15 A , A16 C, A17

C 2C1C8C7A25 A12 C5C4C12 C6A10 A14
A 12 A6A11 A5A10 A4A7A2A8A1B5B3
M
B 2B1
E 1 SFLH SFLR SRRH SRRR SRLH SRLR SRC1 SRC2 SMC1 SMC2 AST MT
AST MT SMC2 SMC1 SRC2 SR C1 SRLR SRLH SRRR SRRH SFLR SFLH
GN D BM
L±B
W±L
W±R
R±G
G± Y
LG±B
B±R
B±Y
Y±R
Y±B
R
R±W
W± RW± RW±B
15A
E CU±IG FROM POWER SOURCE SYSTEM (
SEE PAGE 50)
1J 9
B 815A
STOP
1C 7
1 2
1R 41R 5A A
B C
B 16 JUNCTION
CONNECTOR J12
STOP
LIGHT SW S 6
JUNCTION
CONNECTOR
ABS AND TRACTION ECU C C
B±R
W
G± WB±R
G± WG±W
R±L R±L
W± BW±B IG1STP
ABS AND TRACTION ACTUATORA 15GND1
W± B
A15 BA, A16 C, A17
B A 7 A , A 8B J27 A , J28

ABS AND TRACTION CONTROL
(ABS)
ABS is a brake system designed for the purpose to improve the operating ability securing the stability of the vehicle by
preventing the looking±up of the vehicle controlling the wheel cylinder pressure of all the four wheels at the time of sudden
braking.
1. INPUT SIGNALS
(1) Speed sensor signal
The speed of the wheels is detected and input to TERMINALS FL+, FR+, RL+, and RR+ of the ABS and traction ECU.
(2) Stop light SW signal
A signal is input to TERMINAL STP of the ABS and traction ECU when brake pedal is depressed.
2. SYSTEM OPERATION
When the wheels are to be locked±up, the solenoid inside the actuator will be controlled by the signal from the ABS and
traction ECU and the brake fluid in the wheel cylinder will flow through the reservoir and reduce the hydraulic pressure.
While the ABS is in operation, as the ABS and traction ECU always outputs the operation signal to the pump inside the
actuator, brake fluid stored inside the reservoir will be suctioned up by the pump inside the actuator and returned to the
master cylinder.
When the hydraulic pressure of the wheel cylinder is decompressed or increased until the necessary hydraulic pressure, the
solenoid inside the actuator is controlled by the control signal from the ABS and traction ECU and as a result, hydraulic
pressure of the wheel cylinder will be closed at both routes of the master cylinder and reservoir sides and the hydraulic
pressure of the wheel cylinder will become to be in the holding condition.
If the increase of hydraulic pressure volume of the wheel cylinder becomes necessary, with the control signal from the ABS
and traction ECU, the solenoid inside the actuator will be controlled and become the same condition as usual and the brake
fluid of the master cylinder will be sent to the wheel cylinder and will increase the hydraulic pressure of the wheel cylinder. At
this time, in the case that the brake fluid stays left in the reservoir, it will be sucked up by the pump inside the actuator and
will be sent to the wheel cylinder.
Also, increasing speed of the hydraulic pressure is controlled by outputting the increasing and the said holding one after
another.
(Traction control)
Traction control system is designed to perform the engine output control by the fuel cut and hydraulic pressure control of
driving wheel brake and control the spinning of the driving wheels. By doing this, it improves starting acceleration and
operating ability of the vehicle securing the driving ability in accordance with the road surface condition.
3. TRACTION CONTROL OPERATION
Estimating the vehicle speed from the rear wheel speed, comparing it with the front, driving wheel speed and judging the grip
condition of the driving wheels. From the estimated vehicle speed, target speed of the driving speed will be set. When the
front, driving wheel speed exceeds the control starting speed, it judges that the tire slip is occurred and performs the fuel cut
cylinder number control and brake control and then adjust to make the front wheel speed become the traction control target
speed. Controlling of the traction control will be completed when the vehicle move onto the road where the driving wheels will
not have a tire slip or when the driver decelerate.
ABS MOTOR RELAY [R/B NO.3]
3±4 : Approx. 62 W
ABS SOL RELAY [R/B NO.3]
4±6 : Approx. 80 W
A9, A10 ABS SPEED SENSOR FRONT LH, RH
1±2 :0.6 kW±2.5 kW
A15 (A), A16 (B), A17 (C) ABS AND TRACTION ECU
(B) 8±GROUND : Approx. 12 volts with the ignition SW at ON position
(B)11±GROUND : Continuity with the ignition SW on and the traction off SW on (Traction control off)
(B)16±GROUND : Approx. 12 volts with the brake pedal depressed
(A)15, (C) 9, (C) 10±GROUND : Always continuity
A25, A26
ABS SPEED SENSOR REAR LH, RH
1±2 :1.2 kW±2.3 kW
T2 THROTTLE POSITION SENSOR
1±2 :3.5 kW±5.0 kW
SYSTEM OUTLINE
SERVICE HINTS

ABS (TMC MADE)
ABS ECU
A 3A 10 B 2
B 1
SFRH B 1
B 5
SFRR A 5
B 3
SFLH A 6
B 7
SFLR A 11
B 4
SRRH A 12
B 8
SRRR B 15
B 2
SRLH B 14
B 6
SRLR
MA 4 A 1II3 5 II3 8 II3 11II3 4 60A
FL ABS
2 1 FROM POWER SOURCE SYSTEM
(
SEE PAGE 50)
24 13
36 214
3 3 3 3 3333
B 21 B 8 B 24 B 26IK 28
A 7 A 1
A 2 E 1B23DATA LINK
CONNECTOR 1 D 1
DATA LINK
CONNECTOR 2 D 4
144111622
B
JUNCTION CONNE CTOR J 3ABS MOTOR RELAY
ABS SOL RELAY ABS ACTUATOR
MT BS E BM
R±WW± LW± RW±B
W±B W±B
R+ SR MR5
B GR±RR±L R±L
R±L
G± B R±Y LG±R
LG±RR±L GR ±R W±B
W±L
GR GR±LW±R
R±Y LG±R
LG±R(
SHORT PIN)
ABS TC TS WATCWB
G±B
ECII3 6A C
B B
E1 BR
BR BR BR
JUNCTION
CONNECTOR JUNCTION
CONNECTOR J23(
5S±FE) J22(
1 MZ± FE)
A A3
MT TS TC D/G
SRLR SRLH SRRR SRRH SFLR SFLH SFRR SFRH
R±B W±RL±B W± L W± RR±G G± Y LG±BB J 7 A , J 8
B A18
A, A19
B A 4 A , A 5
IK1 1
IK2 5IK213
LG±B
G±Y
GR±R
IK2 12 IK211
W±R
R±B
EA

ABS (TMC MADE)
This system controls the respective brake fluid pressures acting on the disc brake cylinders of the right front wheel, left front
wheel and rear wheels when the brakes are applied in a panic stop so that the wheels do not lock. This results in improved
directional stability and steerability during panic braking.
1. INPUT SIGNALS
(1) Speed sensor signal
The speed of the wheels is detected and input to TERMINALS FL+, FR+, RL+ and RR+ of the ABS ECU.
(2) Stop light SW signal
A signal is input to TERMINAL STP of the ABS ECU when the brake pedal is depressed.
2. SYSTEM OPERATION
During sudden braking the ABS ECU has signals input from each sensor, which controls the current to the solenoid inside
the actuator and lets the hydraulic pressure acting on each wheel cylinder escape to the reservoir. The pump inside the
actuator is also operating at this time and it returns the brake fluid from the reservoir to the master cylinder, thus preventing
locking of the vehicle wheels.
If the ABS ECU judges that the hydraulic pressure acting on the wheel cylinder is insufficient, the current on the solenoid is
controlled and the hydraulic pressure is increased. Holding of the hydraulic pressure is also controlled by the ABS ECU, by
the same method as above. Pressure reduction, holding and increase are repeated to maintain vehicle stability and to
improve steerability during sudden braking.
A9, A10 ABS SPEED SENSOR FRONT LH, RH
2±1 :0.6 kW±2.5 kW
A25, A26 ABS SPEED SENSOR REAR LH, RH
2±1 :1.2 kW±2.3 kW
A18 (A), A19 (B) ABS ECU
(Connect the ABS ECU connectors)
(B)21±GROUND : Approx. 12 volts with the ignition SW at ON position and the data link connector 1
TS±E1, TC±E1 not connected
(B) 8±GROUND : Approx. 12 volts with the ignition SW at ON position and the data link connector 1
TS±E1, TC±E1 not connected
(B)13±GROUND : Approx. 12 volts with the ignition SW at ON position
(B) 5±GROUND : Approx. 12 volts with the brake pedal depressed
(B)12, (B) 25±GROUND :
Always continuity
: PARTS LOCATION
CodeSee PageCodeSee PageCodeSee Page
A4A26 (1MZ±FE)A2532J1131A4A28 (5S±FE)A2632J1231
A5B26 (1MZ±FE)C1030J2231A5B28 (5S±FE)D126 (1MZ±FE)J2331
A926 (1MZ±FE)D128 (5S±FE)J27A31A928 (5S±FE)D430J28B31
A1026 (1MZ±FE)J331J2931A1028 (5S±FE)J431S631
A18A30J7A31
A19B30J8B31
: RELAY BLOCKS
CodeSee PageRelay Blocks (Relay Block Location)
325Engine Room R/B No.3 (Radiator Upper Support RH)
SYSTEM OUTLINE
SERVICE HINTS

ABS (TMMK MADE)
IK 2 1IK26IK213
1 2 1 2
W
GR
ABS SPEED SENSOR
FRONT LHABS SPEED SENSOR
FRONT RH
G±W
(
SHIELDED)(
SHIELDED)
A 9 A10
R
G
1R 4
1R 515A
STOP
1C 710A
GAUGE FROM POWER SOURCE SYSTEM (
SEE PAGE 50)
1D 215A
ECU±IG
1J 9
4 7
IK3 1 IK3 10
B C
A AIG3 12DC
R±L R±L
D
1 2
R±L
C C
C
R±L R±LG± W
R±LIK3 5
1560A
FL ABS
21
3
(
SHIELDED) (
SHIELDED)
W
BG± WR±L
G±W
W±B 211476 54
JUNCTION
CONNECTOR
A BS WARNING LIGHT
[COMB. METER] C10STOP LIGHT SW S 6
JUNCTION
CONNECTOR J 4
JUNCTION
CONNECTOR J1 2
JUNCTION
CONNECTOR J29C
B±R B±R B±R
L
L
17 18
IG1 +B +BR±L
E 2 FR± FL± WA FL+ FR+STP
B J27 A , J28ABS ACTUATOR AND ECU A 6

IL1 1 2 IL1 3 ID1 4 ID1 9 ID1 3
2 1 2 1
Y
BR BRY
P
LP
L
ABS SPEED SENSOR
REAR LH(
SHIELDED)
(
SHIELDED)
ABS SPEED SENSOR
REAR RH A25 A26(
SHIELDED) IK3 3IK39IK38IK37IK32IK36 E 1 E 1
EAB
B4 14 11 16
B
IK2 12 IK25II3 8 II3 11
12 11
191698 21DATA LINK CONNECTOR 2 D 4
DATA LINK CONNECTOR 1 D 1
ABS ACTUATOR AND ECU A 6 R±L
R±Y LG±RR±L
LG±R LG±R
R±Y R±Y
GND2 GND1
(
SHIELDED)(
SHIELDED)
(
SHIELDED) (
SHIELDED)
W± B W± B
W±B W±B W± B
(
SHIELDED)
(
SHIELDED)
L P BRY
ABS TC TC TS
W± BLG±R
JUNCTION
CONNECTOR J 3
E 1
ECII3 6 E1
BR
BR BR BR
A 3
JUNCTION
CONNECTOR J2 3(
5S±FE) J2 2(
1MZ±FE)
RR± RL±TS TC
RL+ RR+A C
B B
JUNCTION
CONNECTOR
IL1A B J 7 A , J 8
LG±R
(
*1)
P±B
(
*2)
* 1 : 5S±FE
* 2 : 1MZ±FE