stop SUZUKI SWIFT 2008 2.G Service Repair Manual

Downloaded from www.Manualslib.com manuals search engine Table of Contents 4-iii
ABS Warning Lamp Check ............................... 4F-14
EBD Warning Lamp (Brake Warning Lamp) Check .............................................................. 4F-15
DTC Check ....................................................... 4F-15
DTC Table ......................................................... 4F-15
DTC Clearance ................................................. 4F-18
Fail-Safe Table ................ .................................. 4F-19
Scan Tool Data ................................................. 4F-20
Visual Inspection ............................................... 4F-21
ESP ® Warning Lamp Does Not Come ON at
Ignition Switch ON .......................................... 4F-21
ESP ® Warning Lamp Comes ON Steady......... 4F-22
ABS Warning Lamp Does Not Come ON at Ignition Switch ON .......................................... 4F-23
ABS Warning Lamp Comes ON Steady............ 4F-24
EBD Warning Lamp (Brake Warning Lamp) Comes ON Steady .......................................... 4F-24
Serial Data Link Circuit Check .......................... 4F-26
DTC C1016: Stop Lamp Swit ch Circuit Failure .. 4F-28
DTC C1017 / C1023: Yaw Rate / G Sensor Assembly Failure ............................................ 4F-29
DTC C1018: Brake Fluid Le vel Switch Failure .. 4F-30
DTC 1020: Master Cylinder Pressure Sensor Power Supply Failure ...................................... 4F-31
DTC C1021, C1022 / C1025, C1026 / C1031, C1032 / C1035, C1036: Wheel Speed
Sensor Circuit or Encode r Failure ................... 4F-32
DTC C1024: Steering Angle Sensor Circuit
Failure ............................................................. 4F-34
DTC C1027: ESP ® OFF Switch Circuit
Failure ............................................................. 4F-34
DTC C1028: Master Cylinder Pressure Sensor Circuit Failure ....... .............................. 4F-35
DTC C1034: Yaw Rate / G Sensor Assembly Power Supply Failure ...................................... 4F-36
DTC C1037: Steering Angle Sensor Power Supply Failure ................................................. 4F-37
DTC C1038: Steering Angle Sensor Detect Rolling Counter Fa ilure from ESP® Control
Module ............................................................ 4F-38
DTC C1039: Yaw Rate / G Sensor Assembly Internal Failure .............. .................................. 4F-39
DTC C1040: Stability Control System Function Failure .............................................. 4F-39
DTC C1041 / C1042 / C1043 / C1044 / C1045 / C1046 / C1051 / C1052 / C1053 / C1054 /
C1055 / C1056: Solenoid Circuit Failure ......... 4F-40
DTC C1057: ESP ® Control Module Power
Supply Circuit Failure .... .................................. 4F-41
DTC C1061: Pump Motor and/or Motor Driver Circuit Failure .................................................. 4F-42
DTC C1063: Solenoid Valve Power Supply Driver Circuit Failure ....................................... 4F-43
DTC 1071: ESP ® Control Module Internal
Defect.............................................................. 4F-44 DTC C1073: Lost Communication With Yaw
Rate / G Sensor Assembly .............................. 4F-45
DTC C1075 / 1076 / 1078: Sensor Calibration Incomplete.......................... ............................. 4F-46
DTC C1090: Invalid Communication with
ECM ................................................................ 4F-47
DTC C1091 / C1094: ECM Data in CAN Line Failure / Invalid Torque Control
Communication with ECM .. ............................. 4F-48
DTC U1073: Control Module Communication Bus Off ............................................................ 4F-49
DTC U1100: Lost Communication with ECM (Reception Error)............................................. 4F-50
DTC U1126: Lost Communication with Steering Angle Sensor (Reception Error)........ 4F-51
DTC U1140: Lost Communication with BCM (Reception Error)............................................. 4F-52
Repair Instructions ........... ................................. 4F-54
ESP® Hydraulic Unit Operation Check ............. 4F-54
Sensor Calibration............................................. 4F-54
ESP® Hydraulic Unit / Control Module
Assembly On-Vehicle Inspection .................... 4F-55
ESP ® Hydraulic
Unit / Control Module
Assembly Removal and Inst allation ................ 4F-56
Front / Rear Wheel Speed Sensor On-Vehicle Inspection ........................................................ 4F-57
Front Wheel Speed Sensor Removal and Installation ....................................................... 4F-58
Front Wheel Speed Sensor Inspection ............. 4F-59
Rear Wheel Speed Sensor Removal and Installation ....................................................... 4F-59
Rear Wheel Speed Sensor Inspection .............. 4F-60
Front Wheel Encode r On-Vehicle Inspection .... 4F-61
Front Wheel Encoder Removal and Installation ....................................................... 4F-61
Rear Wheel Encoder On-Veh icle Inspection..... 4F-61
Rear Wheel Encoder Removal and Installation ....................................................... 4F-61
Master Cylinder Pressure Sensor On-Vehicle
Inspection ........................................................ 4F-61
Yaw Rate / G Sensor Assembly On-Vehicle Inspection ........................................................ 4F-62
Yaw Rate / G Sensor Assembly Removal and Installation ....................................................... 4F-63
Yaw Rate / G Sensor Inspection ....................... 4F-64
Steering Angle Sensor On-Vehicle Inspection .. 4F-64
Steering Angle Sensor Removal and Installation ....................................................... 4F-65
Steering Angle Sensor Inspection ..................... 4F-65
ESP® OFF Switch Removal an d Installation .... 4F-65
ESP® OFF Switch Inspection ........................... 4F-65
Specifications .................... ................................. 4F-66
Tightening Torque Specifications ...................... 4F-66
Special Tools and Equipmen t ........................... 4F-66
Special Tool ...................................................... 4F-66

Downloaded from www.Manualslib.com manuals search engine 4A-4 Brake Control System and Diagnosis:
Rear Brake Hose / Pipe ConstructionS7RS0B4101003
Diagnostic Information and Procedures
Brakes Diagnosis NoteS7RS0B4104001
Road Testing Brakes
Brakes should be tested on dry, clean, smooth and
reasonably level roadway which is not crowned. Road
test brakes by making brake applications with both light
and heavy pedal forces at vari ous speeds to determine if
the vehicle stops evenly and effectively. Also drive
vehicle to see if it leads to one side or the other without
brake application. If it does, check the tire pressure, front
wheel alignment and front suspension attachments for
looseness. See diagnosis table for other causes. Brake Fluid Leaks
Check the master cylinder fl
uid levels. While a slight
drop in reservoir level does result from normal lining
wear, an abnormally low leve l indicates a leak in the
system. In such a case, chec k the entire brake system
for leakage. If even a slight ev idence of leakage is noted,
the cause should be corrected or defective parts should
be replaced.
Substandard or Contaminated Brake Fluid
Improper brake fluid, mineral oil or water in the fluid may
cause the brake fluid to boil or the rubber components in
the hydraulic system to deteriorate.
[A]: ABS model 6. Master cylinder13. ESP® hydraulic unit
[B]: ESP ® model 7. From hydraulic unit to 4-way joint right : 11 N⋅m (11.0 kgf-m, 8.0 lb-ft)
1. From master cylinder primary to hydraulic unit 8. From hydraulic unit to 4-way joint left: 15 N⋅m (1.5 kgf-m, 11.0 lb-ft)
2. From master cylinder secondary to hydraulic unit 9. 4-way joint: 16 N⋅m (1.6 kgf-m, 11.5 lb-ft)
3. From hydraulic unit to right front brake 10.4-way joint to left rear brake hose : 19 N⋅m (1.9 kgf-m, 14.0 lb-ft)
4. From hydraulic unit to left front brake 11. 4-way joint to right rear brake hose
5. ABS hydraulic unit 12. Master cylinder fixing nut
I6RS0C410003-01
A: View A4. Right rear brake hose8. Flexible hose joint bolt
1. To left rear brake hose 5. Left rear brake hose to left brake9. Caliper
2. To right rear brake hose 6. Right rear brake hose to right brake: 16 N⋅m (1.6 kgf-m, 12.0 lb-ft)
3. Left rear brake hose 7. Brake flexible hose: 23 N⋅m (2.3 kgf-m, 17.0 lb-ft)

Downloaded from www.Manualslib.com manuals search engine Brake Control System and Diagnosis: 4A-7
Repair Instructions
Brake Pedal ComponentsS7RS0B4106019
CAUTION!
Never disassemble brake pedalassembly.
Disassemble will spoil its originalfunction. If
faulty condition is found, replaceit with new
one.

Brake Pedal Free Height InspectionS7RS0B4106001
1) Check brake pedal free height. If it is not within specification, check and ad just following item 2) and
6).
Brake pedal free height “a” from carpet
130 – 150 mm (5.1 – 5.9 in.) 2) Check measurement between booster mounting
surface and center of clevis pin hole. When booster
push rod clevis has been reinstalled, it is important
that the measurement is adj usted (refer to “Brake
Booster Inspection and Adjustment”).
3) Check stop light switch position . Adjust it if it is out of
specification.
4) Check pedal for dent.
5) Check brake booster for installation.
6) Check brake booster push rod for length.
Brake Pedal Play InspectionS7RS0B4106002
Pedal play should be within the following specification. If
out of specification, check stop light switch for proper
installation position and adjust if necessary.
Also check pedal shaft bolt and booster clevis pin
installation for looseness and replace if defective.
Brake pedal play
“a”
: 1 – 8 mm (0.04 – 0.31 in.)
1. Brake pedal : 13 N⋅m (1,3 kgf-m, 9.5 lb-ft)
2. Brake pedal bracket
(a) 1
2
(a)
I7RS0B410002-01
I6RS0C410004-02
“a”I3RH0A410010-01

Downloaded from www.Manualslib.com manuals search engine 4A-8 Brake Control System and Diagnosis:
Excessive Pedal Travel InspectionS7RS0B4106003
1) Start engine.
2) Depress brake pedal a few times.
3) With brake pedal depressed with approximately 300 N (30 kg, 66 lbs) load, measure brake pedal to wall
(dash panel silencer) clearance “a”. If clearance “a”
is less than specification, the most possible cause is
air in lines. Should clearance “a” remain less than
specification even after bleeding of system, other
possible infrequent cause is booster push rod length
out of adjustment.
• Bleed brake system. Refer to “Air Bleeding of Brake System”.
Brake arm pedal to wall clearance “a”
When pedal depressed at 300 N (30 kg, 66 lbs):
over 75 mm (2.95 in.)
Brake Fluid Level InspectionS7RS0B4106004
1) Check master cylinder, reservoir and reservoir hose (if equipped) for crack, damage and brake fluid
leakage. If any faulty condition exists, correct or
replace.
2) Check that brake fluid level is between MAX and MIN marks on reservoir.
NOTE
Be sure to use particular brake fluid either as
indicated on reservoir cap of that vehicle or
recommended in owner’s manual which
comes along with that vehicle. Use of any
other fluid is strictly prohibited.
Fluid level should be between MIN and MAX
lines marked on reservoir.
When brake warning lamp lights sometimes
during driving, replenis h fluid to MAX level.
When fluid decreases quickly, inspect brake
system for leakage. Correct leaky points and
then refill to specified level.

CAUTION!
Do not use shock absorber fluid or any other
fluid which contains mineral oil. Do not use a
container which has been used for mineral oil
or a container which is wet from water.
Mineral oil will cause swelling and distortion
of rubber parts in hydraulic brake system and
water mixed into brake fluid will lower fluid
boiling point. Keep all fluid containers
capped to prevent contamination.

Stop Light Switch AdjustmentS7RS0B4106005
Adjustment should be made as follows. Pull up brake
pedal toward you and while holding it there, adjust
switch position so that clea rance between end of thread
and brake pedal is as specified. Then lock it by turning
clockwise.
Clearance between brake pedal and stop light switch
“a”: 1.2 – 2.2 mm (0.05 – 0.08 in.)
I6RS0C410005-02
I4RS0B410006-01
I4RS0A410007-01

Downloaded from www.Manualslib.com manuals search engine Brake Control System and Diagnosis: 4A-9
Air Bleeding of Brake SystemS7RS0B4106006
CAUTION!
Brake fluid is extremely damaging to paint. If
fluid should accidentally touch painted
surface, immediately wipe fluid from paint
and clean painted surface.

Bleeding operation is necessary to remove air whenever
it entered hydraulic brake system.
Hydraulic lines of brake system are based on the
diagonal split system. When a brake pipe or hose was
disconnected at the wheel, bleeding operation must be
performed at both ends of the line of the removed pipe or
hose. When any joint part of the master cylinder of other
joint part between the master cylinder and each brake
(wheel) was removed, the hydraulic brake system must
be bled at all 4 wheel brakes.
NOTE
Perform bleeding operation starting with rear
brake caliper farthest from master cylinder
and then at front caliper of the same brake
line. Do the same on the other brake line.

1) Fill master cylinder rese rvoir with brake fluid and
keep at least one-half full of fluid during bleeding
operation.
Brake fluid
: Refer to reservoir cap (1) 2) Remove bleeder plug cap. Attach a vinyl tube (1) to
bleeder plug, and insert the other end into container
(2).
3) Depress brake pedal several times, and then while holding it depressed, loosen bleeder plug about one-
third to one-half turn.
4) When fluid pressure in cy linder is almost depleted,
retighten bleeder plug.
5) Repeat this operation until there are no more air bubbles in hydraulic line.
6) When bubbles stop, depress and hold brake pedal and tighten bleeder plug referring to “Front Disc
Brake Components in Section 4B” and “Rear Disc
Brake Components in Section 4C”.
1. Right front brake caliper 3. Right rear brake caliper
2. Left front brake caliper 4. Left rear brake caliper
I6RS0C410007-01
1
I6RS0C410009-01
I2RH01410015-01
I2RH01410016-01
I2RH01410017-01

Downloaded from www.Manualslib.com manuals search engine Brake Control System and Diagnosis: 4A-11
Brake Hose and Pipe InspectionS7RS0B4106009
Hose
The brake hose assembly should be checked for road
hazard damage, for cracks and chafing of outer cover,
for leaks and blisters. A light and mirror may be needed
for an adequate inspection. If any above conditions are
observed on brake hose, it is necessary to replace it.
Pipe
Inspect the pipe for damage, cracks, dents and
corrosion. If any defect is found, replace it.
Master Cylinder ComponentsS7RS0B4106010
I4RS0B410009-01
10
11
1
2 3
4
5 7
13
12
9
FLD
8FLD
6FLD
(b)
(a)
(c)FLD
I7RS0B410004-01
1. Reservoir cap 7. Master cylinder piston set13. Circlip
2. Filter 8. Primary piston assembly
: Apply brake fluid. :2.5 N
⋅m (0.25 kgf-m, 2.0 lb-ft)
3. Reservoir 9. Secondary piston assembly
: Apply brake fluid. : 15 N
⋅m (1.5 kgf-m, 11.0 lb-ft)
4. Grommet : Apply brake fluid. 10. Cup
: 16 N.m (1.6 kgf-m, 12.0 lb-ft) (flare nut for
M10)
19 N.m (1.9 kgf-m, 14.0 lb-ft) (flare nut for
M12)
5. Secondary piston stopper pin : Apply brake fluid. 11. Piston guide
: Do not reuse.
6. Master cylinder body : Apply brake fluid to inside of cylinder. 12. O-ring

Downloaded from www.Manualslib.com manuals search engine 4A-14 Brake Control System and Diagnosis:
6) Fill reservoir with specified fluid.
7) After completing the work, bleed air from brake and clutch system referring to “Air Bleeding of Brake
System” and “Air Bleeding of Clutch System in
Section 5C” (M/T model).
8) Install cowl top panel referring to “Cowl Top Components in Section 9K”.
9) Install windshield wiper referring to “Windshield
Wiper Removal and Insta llation in Section 9D”.
10) Perform brake test and check each installed part for fluid leakage.
Master Cylinder Assembly Disassembly and
Assembly
S7RS0B4106013
Disassembly
1) Push in primary piston (1) to remove secondary
piston stopper pin (2) from master cylinder as
shown.
2) Remove circlip (1).
3) Remove piston guide and primary piston. Then remove secondary piston by blowing compressed air
(2) into hole. Be cautions during removal as
secondary piston jumps out.
WARNING!
Do not apply too highly compressed air
which will cause piston to jump out of
cylinder. Place a cloth to prevent piston from
damage. It should be taken out gradually with
moderately compressed air. Do not place
your fingers in front of piston when using
compressed air.

Assembly
CAUTION!
• Never use any mineral oil such as kerosene oil and gasoline when washing
and assembling parts.
• Check inside of cylinder wall, pistons and cup seals are free from any foreign objects
such as dust and dirt and use case not to
cause any damage with a tool during
assembly.
• Do not drop parts. Do not use any part which has been dropped.

1) Apply brake fluid to inside of cylinder and contact surface of piston assembly (new piston cups, new O-
ring and piston guide).
2) Install secondary return spring and secondary piston (1) into cylinder body (4).
NOTE
Align oblong hole in secondary piston (2)
with stopper pin hole (3) in master cylinder
body (4) when installing it.

3) Install primary piston assembly into cylinder body.
4) Install piston stopper pin (2) with pistons pushed in all the way and install it.
I2RH01410025-01
I4RS0A410017-01
I2RH01410027-01
I4RS0A410018-01

Downloaded from www.Manualslib.com manuals search engine 4A-16 Brake Control System and Diagnosis:
Booster Operation InspectionS7RS0B4106016
There are two ways to perform this inspection, with and
without a tester. Ordinarily, it is possible to roughly
determine its condition without using a tester.
NOTE
For this check, make su re that no air is in
hydraulic line.

Check Air Tightness
1) Start engine.
2) Stop engine after running for 1 to 2 minutes.
3) Depress brake pedal several times with the same load as in ordinary braking and observe pedal travel.
If pedal goes down deep the first time but its travel
decreases as it is depressed the second and more
times, air tightness is obtained.
4) If pedal travel doesn’t change, air tightness isn’t obtained.
NOTE
If defective, inspect vacuum lines and sealing
parts, and replace any faulty part. When this
has been done, repeat the entire test.

Check Operation
1) With engine stopped, depress brake pedal several times with the same load and make sure that pedal
travel doesn’t change.
2) Start engine while depressing brake pedal. If pedal travel increases a little, operation is satisfactory. But
no change in pedal travel indicates malfunction.
Check Air Tightness Under Load 1) With engine running, depress brake pedal. Then stop engine while holding brake pedal depressed.
1. 1st 2. 2nd3. 3rd
1. 1st, 2nd, 3rd
I2RH01410005-01
I2RH01410006-01
H: Hold
I2RH01410007-01
I2RH01410008-01
I2RH01410009-01

Downloaded from www.Manualslib.com manuals search engine ABS: 4E-4
Schematic and Routing Diagram
ABS SchematicS7RS0B4502001
INPUTOUTPUT
ABS control moduleWheel speed sensor (LF)
Wheel speed sensor (LR)
Wheel speed sensor (RF)Battery Voltage
Ignition Voltage
Pump motor
driver (transistor)
Solenoid valve power
supply driver (transistor)
Solenoid valve
driver (transistor) Hydraulic unit
Pump motor
LF inlet solenoid valve
LF outlet solenoid valve
LR inlet solenoid valve
LR outlet solenoid valve
RF inlet solenoid valve
RF outlet solenoid valve
RR inlet solenoid valve
RR outlet solenoid valve
Data link connector
ABS hydraulic unit/control
module assembly
Wheel speed sensor (RR)
3 7
2
645
8 12
14
21
15
16
1
13
18
17
19
19
11
10
9
CAN driverStop lamp switch
Engine torque
ECM
ABS warning light
EBD warning light
Combination meter
Torque request
ECMWheel speed signal (LF)
Wheel speed signal (LR)
Wheel speed signal (RF)
Wheel speed signal (RR)
ABS active
I6RS0C450003-03

Downloaded from www.Manualslib.com manuals search engine 4E-5 ABS:
ABS Wiring Circuit DiagramS7RS0B4502002
1. ABS hydraulic unit / control module assembly 8.
Pump motor 15. Wheel speed sensor (Right-front)
2. ABS control module 9. Stop lamp switch 16. Wheel speed sensor (Left-front)
3. ABS hydraulic unit 10. ABS warning light 17. Wheel speed sensor (Right-rear)
4. Solenoid valve power supply driver (transistor) 11. EBD warnin g light (Brake warning light) 18. Wheel speed sensor (Left-rear)
5. Solenoid valve driver (transistor) 12. Lamp driver module 19. Battery
6. Pump motor driver (transistor) 13. 4 way joint 20. Ignition switch
7. Solenoid valve 14. Data link connector 21. ECM
[A]
14
1516171819202122232425 1
23456789101112
13
26 E03
a
WHT/BLU
BLKWHT/BLU
M
12V
9
10 11 12
13
BLKE03-14E03-1
E03-13
E03-26
YELBRN
14E03-24
LT GRN/BLKLT GRN
15
WHTWHT/BLK
16
RED
WHTBLK
WHTBLK
WHTBLK
WHTBLKRED/BLK
17
12V
PPL/WHT
18E03-5
1912V
5V
12V
23
24
VCC22
E03-25
E03-15E03-16
E03-19E03-18
E03-22E03-21
WHT/RED
WHT/RED
+BB
GRN/ORN
E03-7
WHT/BLUGRN
1
2
3
4
8
RED/BLK
E03-12
E03-6
RED
WHTE03-10E03-8
REDWHT
20 7
6
529
29
G28-8
G28-10
25
29
E23-3E23-18
GRN/WHT
21
PPL
12V
E23-20
12V
12V
12V
12V
REDWHTE46-1
E46-2
BLK
RED/BLK
RED/BLK
RED
RED
WHT
WHT
27
28
26
29
G37-2
G37-4
REDWHT
I6RS0C450004-01
[A]: Terminal arrangement of ABS hydraulic unit / control module assembly 10. Solenoid valve power supply driver
(transistor) 21. Brake light switch
a: Upside 11. ABS pump motor driver (transistor) 22. Power control unit