width SUZUKI SX4 2006 1.G Service Workshop Manual

Downloaded from www.Manualslib.com manuals search engine 0A-3 General Information:
There are two kinds of colored wire used in this vehicle. One is single-colored wire and the other is dual-colored
(striped) wire.
The single-colored wire uses only one color symbol (i.e. “GRN”).
The dual-colored wire uses two color symbols (i.e. “GRN/YEL”). The first symbol represents the base color of the wire
(“GRN” in the figure) and the second symbol represents the color of the stripe (“YEL” in the figure).
Fasteners InformationS6RW0D0101004
Metric Fasteners
Most of the fasteners used for this vehicle are JIS-
defined and ISO-defined metric fasteners. When
replacing any fasteners, it is most important that
replacement fasteners be the correct diameter, thread
pitch and strength.
CAUTION!
Even when the nominal diameter (1) of thread
is the same, the thread pitch (2) or the width
across flats (3) may vary between ISO and
JIS. Refer to JIS-TO-ISO Main Fasteners
Comparison Table below for the difference.
Installing a mismatched bolt or nut will cause
damage to the thread.
Before installing, check the thread pitch for
correct matching and then tighten it by hand
temporarily. If it is tight, recheck the thread
pitch.

JIS-TO-ISO Main Fasteners Comparison TableFastener Strength Identification
Most commonly used metric fastener strength property
classes are 4T, 6.8, 7T, 8.8 and radial line with the class
identification embossed on the head of each bolt. Some
metric nuts will be marked with punch, 6 or 8 mark
strength identification on the nut face. Figure shows the
different strength markings.
When replacing metric fasteners, be careful to use bolts
and nuts of the same strength or greater than the original
fasteners (the same number marking or higher). It is
likewise important to select replacement fasteners of the
correct diameter and thread pitch. Correct replacement
bolts and nuts are available through the parts division.
Metric bolts: Identification class numbers or marks
correspond to bolt strength (increasing numbers
represent increasing strength).
I2RH01010010-01
Nominal diameter
M6 M8 M10 M12 M14
JISThread pitch 1.0 1.25 1.25 1.25 1.5
Width across flats1012141719
ISOThread pitch 1.0 1.25 1.5 1.5 1.5
Width across flats1013161821
I4RH0A010005-01
1. Nut strength identification
I5RH01010001-01

Downloaded from www.Manualslib.com manuals search engine 1A-40 Engine General Information and Diagnosis:
) RADIATOR FAN
(RADIATOR COOLING FAN
CONTROL RELAY)Ignition switch ONEngine coolant temp.: lower
than 97.5 °C (207.5 °F)OFF
Engine coolant temp.: 100
°C (212 °F)ON
) A/C COND FAN
(A/C CONDENSER
COOLING FAN CONTROL
RELAY)Engine runningBlower motor switch and A/C
switch turned ON/ECT over
102.5 °C (216.5 °F)ON
Blower motor switch and/or
A/C switch turned OFFOFF
) TP SENSOR 1 VOLT
(THROTTLE POSITION
SENSOR (MAIN) OUTPUT
VOLTAGE)Ignition switch ON
after warmed up
engineAccelerator pedal released 0.48 – 0.90 V
Accelerator pedal depressed
fully3.37 – 4.55 V
) TP SENSOR 2 VOLT
(THROTTLE POSITION
SENSOR (SUB) OUTPUT
VOLTAGE)Ignition switch ON
after warmed up
engineAccelerator pedal released 1.36 – 1.75 V
Accelerator pedal depressed
fully3.58 – 4.76 V
) APP SENSOR 1 VOLT
(ACCELERATOR PEDAL
POSITION (APP) SENSOR
(MAIN) OUTPUT VOLTAGE)Ignition switch ON
after warmed up
engineAccelerator pedal released 0.69 – 0.81 V
Accelerator pedal depressed
fully3.43 – 4.56 V
) APP SENSOR 2 VOLT
(ACCELERATOR PEDAL
POSITION (APP) SENSOR
(SUB) OUTPUT VOLTAGE)Ignition switch ON
after warmed up
engineAccelerator pedal released 0.31 – 0.44 V
Accelerator pedal depressed
fully1.71 – 2.29 V
*) ACCEL POSITION
(RELATIVE ACCELERATOR
PEDAL POSITION)Ignition switch ON
after warmed up
engineAccelerator pedal released 0 – 3%
Accelerator pedal depressed
fully90 – 100%
*) TARGET THROTTLE
POSI
(TARGET THROTTLE
VALVE POSITION)Ignition switch ON
after warmed up
engineAccelerator pedal released 0 – 3%
Accelerator pedal depressed
fully90 – 100%
) IAC THROTTLE
OPENING
(IDLE AIR CONTROL
THROTTLE VALVE
OPENNING)It idling with no load after warming up 5 – 25%
) THROTTLE MOTOR
VOLTIgnition switch ON / engine at stop 10.0 – 14.0 V
) CLOSED THROTTLE
POS
(CLOSED THROTTLE
POSITION)Throttle valve at idle position ON
Throttle valve opens larger than idle position OFF
) THROTTLE MOTOR
RELAYAt specified idle speed after warming up ON
*) VEHICLE SPEED At stop 0 km/h (0 mph)
) INJ PULSE WIDTH
(FUEL INJECTION PULSE
WIDTH)At specified idle speed with no load after warming up 1.5 – 3.5 msec.
At 2500 r/min. no load after warming up 1.5 – 3.0 msec. Scan tool data Vehicle conditionNormal condition /
reference values

Downloaded from www.Manualslib.com manuals search engine Engine General Information and Diagnosis: 1A-43
THROTTLE MOTOR RELAY (ON/OFF)
ON: Throttle actuator (motor) control activated by ECM.
OF: Throttle actuator (motor) control stopped by ECM.
VEHICLE SPEED (km/h, mph)
It is computed based on pulse signals from front wheel
speed sensor (RH, LH) (for M/T model) or output shaft
speed sensor (VSS) (for A/T model).INJ PULSE WIDTH (FUEL INJECTION PULSE WIDTH,
msec.)
This parameter indicates time of the injector drive (valve
opening) pulse which is output from ECM (but injector
drive time of NO.1 cylinder for multiport fuel injection).
Visual InspectionS6RW0D1104008
Visually check the following parts and systems.
Engine Basic InspectionS6RW0D1104009
This check is very important for troubleshooting when ECM has detected no DTC and no abnormality has been found
in “Visual Inspection”.
Follow the flow carefully.Inspection item Reference section
• Engine oil – level, leakage “Engine Oil and Filter Change in Section 0B”
• Engine coolant – level, leakage “Coolant Level Check in Section 1F”
• Fuel – level, leakage“Fuel Lines and Connections Inspection in
Section 0B”
• Air cleaner element – dirt, clogging “Air Cleaner Filter Inspection in Section 0B”
• Battery – fluid level, corrosion of terminal“Battery Dismounting and Remounting in
Section 1J”
• Water pump belt – tension damage“Accessory Drive Belt Inspection in Section
0B”
• Throttle valve – operating sound“Electric Throttle Body Assembly On-Vehicle
Inspection in Section 1C”
• Vacuum hoses of air intake system – disconnection, looseness,
deterioration, bend“Vacuum Hose Inspection in Section 1B”
• Connectors of electric wire harness – disconnection, friction
• Fuses – burning
• Parts – installation, bolt – looseness
• Parts – deformation
• Other parts that can be checked visually
Also check the following items at engine start, if possible
• Malfunction indicator lamp – Operation “Malfunction Indicator Lamp (MIL) Check”
• Charge warning lamp – Operation “Generator Symptom Diagnosis in Section 1J”
• Engine oil pressure warning lamp – Operation “Oil Pressure Switch Inspection in Section 9C”
• Engine coolant temp. meter – Operation“Engine Coolant Temperature (ECT) Sensor
Inspection in Section 1C”
• Fuel level meter – Operation “Fuel Level Sensor Inspection in Section 9C”
• Tachometer – Operation
• Abnormal air being inhaled from air intake system
• Exhaust system – leakage of exhaust gas, noise
• Other parts that can be checked visually
Step Action Yes No
1Was “Engine and Emission Control System Check”
performed?Go to Step 2. Go to “Engine and
Emission Control
System Check”.
2Check battery voltage
Is it 11 V or more?Go to Step 3. Charge or replace
battery.
3Is vehicle equipped with keyless start control system?Go to Step 4. Go to Step 5.

Downloaded from www.Manualslib.com manuals search engine Engine General Information and Diagnosis: 1A-181
Reference waveform No.1
Fuel injector signal (1) with engine idlingReference waveform No.2
No.1 fuel injector signal (2) with engine idling E01-58RED/
BLKA/C condenser fan
relay
(if equipped with A/
C)0 – 1 VBlower speed selector ON
A/C or defroster switch ON
Engine running or Engine
coolant temperature at
more than 110 °C (230 °F)
with engine running.—
10 – 14 VExcept the above
mentioned condition with
engine running
E01-59 — — — — —
E01-60BRN/
WHTMain power supply
relay output10 – 14 V Ignition switch turned OFF.
—
0 – 2 V Ignition switch turned ON. Terminal
No.Wire
colorCircuit Normal voltage Condition Remarks
Measurement
terminalCH1: “C01-2” to “C01-58”
Oscilloscope
settingCH1: 20 V/DIV
TIME: 1 ms/DIV
Measurement
condition• After warmed up to normal
operating temperature
• Engine at specified idle speed
2. Fuel injection pulse width: 2-4 msec. 3. 10 – 14 V
I4RS0B110050-01
Measurement
terminalCH1: “C01-20” to “C01-58”
CH2: “C01-1” to “C01-58”
Oscilloscope
settingCH1: 5 V/DIV, CH2: 20 V/DIV
TIME: 40 ms/DIV
Measurement
condition• After warmed up to normal
operating temperature
• Engine at specified idle speed
[A]: For VVT model
[B]: For non-VVT model
1. Cylinder reference signal (CMP reference signal)
3. 720° crank angle
I4RS0B110051-01

Downloaded from www.Manualslib.com manuals search engine Engine General Information and Diagnosis: 1A-183
Reference waveform No.5
Ignition coil No.2 and No.3 signal (2) with engine idling
Reference waveform No.6
Ignition coil signal (1) with engine idlingReference waveform No.7
Ignition coil No.1 and No.4 signal (2) with engine idling Measurement
terminalCH1: “C01-20” to “C01-58”
CH2: “C01-5” to “C01-58”
Oscilloscope
settingCH1: 2 V/DIV, CH2: 2 V/DIV
TIME: 40 ms/DIV
Measurement
condition• After warmed up to normal
operating temperature
• Engine at specified idle speed
[A]: For VVT model
[B]: For non-VVT model
1. Cylinder reference signal (CMP reference signal)
3. 720° crank angle
Measurement
terminalCH1: “C01-6” to “C01-58”
Oscilloscope
settingCH1: 2 V/DIV
TIME: 4 ms/DIV
Measurement
condition• After warmed up to normal
operating temperature
• Engine at specified idle speed
I4RS0B110054-01
2. 4 – 6 V 3. Ignition coil pulse width: 4 – 5 msec.
Measurement
terminalCH1: “C01-20” to “C01-58”
CH2: “C01-6” to “C01-58”
Oscilloscope
settingCH1: 2 V/DIV, CH2: 2 V/DIV
TIME: 40 ms/DIV
Measurement
condition• After warmed up to normal
operating temperature
• Engine at specified idle speed
[A]: For VVT model
[B]: For non-VVT model
1. Cylinder reference signal (CMP reference signal)
3. 720° crank angle
I4RS0B110055-02
I4RS0B110056-01

Downloaded from www.Manualslib.com manuals search engine 1D-24 Engine Mechanical:
Installation
1) Clean sealing surface on timing chain cover, cylinder
block and cylinder head.
Remove oil, old sealant and dust from sealing
surface.
2) Install oil seal (1) to timing chain cover, if removed.
NOTE
When installing new oil seal, press fit to
timing chain cover (2) by using special tool
(bearing installer) as shown in figure.

Drive in dimension
“a”: 1.0 mm (0.04 in.)
Special tool
(A): 09913–75810
3) For engine with VVT, install oil control valve to timing
chain cover referring to “Oil Control Valve Removal
and Installation (For Engine with VVT)”.
4) Apply sealant “A” to mating surface of cylinder and
cylinder head and “B” to mating surface of timing
chain cover as shown in figure.
“A”: Water tight sealant 99000–31140 (SUZUKI
Bond No.1207B)
“B”: Sealant 99000–31260 (SUZUKI Bond
No.1217G)
Sealant amount for timing chain cover
Width “a”: 3 mm (0.12 in.)
Height “b”: 2 mm (0.08 in.)5) Apply engine oil to oil seal lip, then install timing
chain cover (1). Tighten bolts and nut to specified
torque.
NOTE
Before installing timing chain cover, check
that pin is securely fitted.

Tightening torque
Timing chain cover bolt (a): 25 N·m (2.5 kgf-m,
18.0 lb-ft)
Timing chain cover nut (b): 25 N·m (2.5 kgf-m,
18.0 lb-ft)
6) Apply engine oil to new O-rings (2) and install them
to cap (3).
7) Install cap (3) to timing chain cover (1).
Tighten bolts to specified torque.
Tightening torque
Cap bolt (c): 25 N·m (2.5 kgf-m, 18.0 lb-ft)
I2RH0B140058-01
I5RW0C140043-01
(a) (b) (c)
1 2 3
I4RS0B140011-02

Downloaded from www.Manualslib.com manuals search engine 1D-36 Engine Mechanical:
Camshaft, Tappet and Shim InspectionS6RW0D1406024
Intake Cam Timing Sprocket Assembly (For engine
with VVT)
Fit intake cam timing sprocket assembly to camshaft (2)
and hold hexagonal section of camshaft by using
spanner or the like.
Check if sprocket (1) is not turned by hand.
If moved, replace intake cam timing sprocket assembly.
Cam Wear
Using a micrometer, measure cam height “a”. If
measured height underruns its limit, replace camshaft.
Cam height “a”
[For engine with VVT]
[For engine without VVT]Camshaft Runout
Set camshaft between two “V” blocks, and measure its
runout by using a dial gauge.
If measured runout exceeds limit, replace camshaft.
Camshaft runout limit
0.10 mm (0.0039 in.)
Camshaft Journal Wear
Check camshaft journals and camshaft housings for
pitting, scratches, wear or damage.
If any malcondition is found, replace camshaft or cylinder
head with housing. Never replace cylinder head without
replacing housings.
Check clearance by using gauging plastic. Checking
procedure is as follows.
1) Clean housings and camshaft journals.
2) Remove all tappets with shims.
3) Install camshafts to cylinder head.
4) Place a piece of gauging plastic to full width of
journal of camshaft (parallel to camshaft).
5) Install camshaft housing. Cam height Standard Limit
Intake cam44.929 – 45.089 mm
(1.769 – 1.775 in.)44.80 mm
(1.764 in.)
Exhaust cam44.399 – 44.559 mm
(1.748 – 1.754 in.)44.28 mm
(1.743 in.)
Cam height Standard Limit
Intake cam44.919 – 45.079 mm
(1.768 – 1.775 in.)44.80 mm
(1.764 in.)
Exhaust cam44.399 – 44.559 mm
(1.748 – 1.754 in.)44.28 mm
(1.743 in.)
2 1
I3RH0B140043-01
I2RH0B140080-01
I2RH0B140081-01
I2RH0B140082-01

Downloaded from www.Manualslib.com manuals search engine Engine Mechanical: 1D-37
6) Tighten camshaft housing bolts evenly and gradually
in numerical order (“1” through “21”) by repeating
tightening sequence two or three times until
specified torque is obtained.
NOTE
Do not rotate camshaft while gauging plastic
is installed.

Tightening torque
Camshaft housing bolt (a): 11 N·m (1.1 kgf-m,
8.0 lb-ft)
7) Remove housing, and using scale (2) on gauging
plastic envelop, measure gauging plastic (1) width at
its widest point.
Camshaft journal clearance
[For engine with VVT system]
[For engine without VVT system]If measured camshaft journal clearance exceeds
limit, measure journal (housing) bore and outside
diameter of camshaft journal. Replace camshaft or
cylinder head assembly whichever the difference
from specification is greater.
Camshaft journal diameter [A]
[For engine with VVT system]
[For engine without VVT system]
Camshaft journal bearing bore [B]
[For engine with VVT system]
[For engine without VVT system] Standard Limit
Intake side
No.1 housing0.020 – 0.072 mm
(0.0008 – 0.0028 in.)0.10 mm
(0.0039 in.)
Others0.045 – 0.087 mm
(0.0018 – 0.0034 in.)0.12 mm
(0.0047 in.)
Standard Limit
0.045 – 0.087 mm
(0.0018 – 0.0034 in.)0.12 mm
(0.0047 in.)
“10”“9”
“2” “1”,(a) “6”“5” “14” “13”
“20”
“17”
“19”
“18”
“21”
“12”
“11”
“4” “3” “8”“7” “16” “15”
I3RH0B140041-01
I2RH0B140083-01
Item Standard
Intake side No.1 housing26.940 – 26.955 mm
(1.0606 – 1.0612 in.)
Exhaust side No.1
housing26.934 – 26.955 mm
(1.0604 – 1.0612 in.)
Others22.934 – 22.955 mm
(0.9029 – 0.9037 in.)
Item Standard
Intake and Exhaust side
No.1 housing26.934 – 26.955 mm
(1.0604 – 1.0612 in.)
Others22.934 – 22.955 mm
(0.9029 – 0.9037 in.)
Item Standard
Intake side No.1 housing30.000 – 30.015 mm
(1.1811 – 1.1816 in.)
Exhaust side No.1
housing27.000 – 27.021 mm
(1.0630 – 1.0638 in.)
Others23.000 – 23.021 mm
(0.9055 – 0.9063 in.)
Item Standard
Intake and Exhaust side
No.1 housing27.000 – 27.021 mm
(1.0630 – 1.0638 in.)
Others23.000 – 23.021 mm
(0.9055 – 0.9063 in.)

Downloaded from www.Manualslib.com manuals search engine 1D-46 Engine Mechanical:
Valve head radial runout
Check each valve for radial runout with a dial gauge and
“V” block. To check runout, rotate valve slowly. If runout
exceeds its limit, replace valve.
Valve head radial runout
Limit: 0.08 mm (0.003 in.)
Seating contact width
Create contact pattern on each valve in the usual
manner, i.e., by giving uniform coat of marking
compound to valve seat and by rotatingly tapping seat
with valve head. Valve lapper (tool used in valve lapping)
must be used.
Pattern produced on seating face of valve must be a
continuous ring without any break, and the width of
pattern must be within specified range.
Standard seating width “a” revealed by contact
pattern on valve face
Intake and Exhaust: 1.0 – 1.4 mm (0.0389 – 0.0551
in.)Valve seat repair
A valve seat not producing a uniform contact with its
valve or showing width of seating contact that is out of
specified range must be repaired by regrinding or by
cutting and regrinding and finished by lapping.
1)Exhaust valve seat:
Use valve seat cutters (1) to make two cuts as
illustrated in figure. Two cutters must be used: the
first for making 22° angle, and the second for making
45° angle. The second cut must be made to produce
desired seat width.
Seat width for exhaust valve seat
“a”: 1.0 – 1.4 mm (0.0389 – 0.0551 in.)
2)Intake valve seat:
Use valve seat cutters (1) to make three cuts as
illustrated in figure. Three cutters must be used: the
1st for making 22° angle, the 2nd for making 60°
angle, and 3rd for making 45° angle. The 3rd cut
(45°) must be made to produce desired seat width.
Seat width for intake valve seat
“b”: 1.0 – 1.4 mm (0.0389 – 0.0551 in.)
3)Valve lapping:
Lap valve on seat in two steps, first with coarse size
lapping compound applied to face and the second
with fine-size compound, each time using valve
lapper according to usual lapping method.
I2RH01140136-01
I2RH0B140103-01
I5RW0A140024-01

Downloaded from www.Manualslib.com manuals search engine 1D-56 Engine Mechanical:
Connecting Rod Bearing General Information
Service connecting rod bearings are available in
standard size and 0.25 mm (0.0098 in.) undersize
bearing, and standard size bearing has 5 kinds of
bearings differing in tolerance.
For identification of undersize bearing, it is painted red at
the position as indicated in figure, undersize bearing
thickness is 1.605 – 1.615 mm (0.0632 – 0.0635 in.) at
the center of it.
Connecting Rod Bearing Visual Inspection
Inspect bearing shells for signs of fusion, pitting, burn or
flaking and observe contact pattern. Bearing shells
found in defective condition must be replaced.
Connecting Rod Bearing Clearance
1) Before checking bearing clearance, clean bearing
and crank pin.
2) Install bearing in connecting rod and bearing cap.
3) Place a piece of gauging plastic (1) to full width of
crank pin as contacted by bearing (parallel to
crankshaft), avoiding oil hole.4) Install rod bearing cap (1) to connecting rod.
When installing cap, be sure to point arrow mark (2)
on cap to crankshaft pulley side, as shown in figure.
After applying engine oil to rod bolts, tighten cap nuts
(3) gradually as follows.
a) Tighten all cap nuts to 15 N⋅m (1.5 kgf-m, 11.0 lb-
ft)
b) Retighten them to 45°
c) Repeat Step b) once again.
Tightening torque
Connecting rod bearing cap nut (a): Tighten
15 N⋅m (1.5 kgf-m, 11.0 lb-ft) 45° and 45° by
the specified procedure
5) Remove cap and using a scale (1) on gauging
plastic envelope (2), measure gauging plastic (2)
width at the widest point (clearance).
If clearance exceed its limit, use a new standard size
bearing referring to “Selection of Connecting Rod
Bearings: ”.
After selecting new bearing, recheck clearance.
Connecting rod bearing clearance
Standard: 0.029 – 0.047 mm (0.0011 – 0.0018 in.)
Limit: 0.065 mm (0.0026 in.)
6) If clearance can not be brought to its limit even by
using a new standard size bearing, use next thicker
bearing and recheck clearance or regrind crank pin
to undersize and use 0.25 mm undersize bearing.
1. Red paint
I2RH01140164-01
I2RH0B140121-01
I2RH0B140122-01
I2RH0B140123-01