2010 SUZUKI SX4 service

7-10
INSPECTION AND MAINTENANCE
80J23-03E
R: Replace or change
I : Inspect, clean, adjust, lubricate or replace as necessary
NOTE:
This table shows the service schedule up to 125000 km (75000 miles).
Beyond 125000 km (75000 miles), perform the same services at the same intervals shown in the chart.
*1Clean more frequently if the air flow from the air conditioner decreases.
*2Check or replace as necessary if you usually drive with high speed or high engine revolutions.
Interval: This interval should be judged by odometer
reading or months, whichever comes first.miles (x 1000) 42 45 48 51 54 57 60 63 66 69 72 75
km (x 1000) 70 75 80 85 90 95 100 105 110 115 120 125
months 42 45 48 51 54 57 60 63 66 69 72 75CHASSIS AND BODY
1. Clutch (for manual transaxle)
Pedal and fluid level
–
I
–
–
–
–
I
–
–
–
–
I
*2. Brake discs and pads (front, rear) – – I – – – I – – – I –
Brake drums and shoes
(rear)
–
–
I
–
–
–
I
–
–
–
I
–
*3. Brake hoses and pipes – – I – – – I – – – I –
4.Brake fluid level check, *replacement
–
I
–
–
–
–
R
–
–
–
–
I
5.Brake pedal stroke check, *adjustment – I –––– I –––– I
6.Parking brake lever and *cableLever movement check, *adjustment – I –––– I –––– I7.Tires (including tire rotation)
I
–
I
–
I
–
I
–
I
–
I
–
8.Wheel discs I–I–I–I–I–I–
*9.
Wheel bearings
–
–
I
–
–
–
I
–
–
–
I
–
*10. Suspension system I – I – I – I – I – I –
*11.
Propeller shafts (i-AWD)/Drive axle boots
I
–
I
–
I
–
I
–
I
–
I
–
*12. Manual transaxle oil
Level check, *replacement
–
R
–
–
–
–
I
–
–
–
–
I
13. Continuously variable transaxle (CVT) Fluid level – I–––– I –––– I
*Fluid deterioration check*
2
–
I
–
–
–
–
I
–
–
–
–
I
*Fluid hose – I ––––––––––
*14.
Transfer oil (i-AWD)
–
R
–
–
–
–
R
–
–
–
–
R
*15.Rear differential oil (i-AWD) –R––––R––––R
16.
Steering systemSteering wheel movement, *linkage I – I – I – I – I – I –
17.
Power steering (if equipped)
I
–
I
–
I
–
I
–
I
–
I
–
18. All latches, hinges and locks I – I – I – I – I – I –
19.
Air conditioner filter element (if equipped)*
1
I
–
I
–
I
–
R
–
I
–
I
–

7-24
INSPECTION AND MAINTENANCE
80J23-03E
Power Steering (if equipped)
54G225
(1) UPPER
(2) LOWER
Check the steering box case, vane pump
and hose connections for leaks or damage.Power Steering FluidCheck the fluid level by looking at the res-
ervoir in the engine compartment when the
fluid is cold (about room temperature).
Check that the fluid level is between the (1)
and (2) lines. If the fluid level is near the (2)
line, fill it up to the (1) line with an auto-
matic transaxle fluid equivalent to ATF
DEXRON
®-II (Esso JWS 2326) or
DEXRON®-III. Do not overfill.
TiresFor safe operation of your vehicle, it is
important that the tires be the correct
type and size, in good condition, and
properly inflated. Be sure to follow the
requirements and recommendations in
this section.
Tire Sidewall Labeling
Useful information about a tire is
molded into its sidewall. The example
below shows a typical passenger car
tire.
Typical Passenger Car Tire Sidewall
67D027
A. Tire Manufacturer
The name of the tire manufacturer
is shown here.B. Tire Name/Model
The tire name or model is shown
here.
C. Tire Size
The tire size code is a combina-
tion of letters and numbers used
to define a particular tire’s width,
height, aspect ratio, construction
type, and service description. See
the “Tire Size” explanation later in
this section for more details.
D. U.S. DOT Tire Identification Num-
ber
The Department of Transportation
(DOT) marking indicates that the
tire is in compliance with the U.S.
Department of Transportation
Motor Vehicle Safety Standards.
The letters and numbers following
the DOT marking is the Tire Iden-
tification Number (TIN). The TIN
identifies the tire manufacturer
and plant, tire size, and date the
tire was manufactured.
E. Uniform Tire Quality Grading
(UTQG)
Tire manufacturers are required to
grade tires based on three perfor-
mance factors: treadwear, traction
and temperature resistance.
Refer to the “Uniform Tire Quality
Grading” section for more details.
EXAMPLE
AH B
G
E
FD
J I
C

7-25INSPECTION AND MAINTENANCE
80J23-03E
F. Load Rating
Load rating is the maximum
weight a tire is designed to sup-
port in normal service.
G. Max Inflation Pressure
Max inflation pressure is the max-
imum inflation pressure a tire is
designed for.
H. Tire Ply Material
These tire markings describe the
type of cord and number of plies
in the sidewall and under the
tread.
I. Load Index and Speed Rating
The two- or three-digit number is
the tire’s load index, the maximum
load a tire can carry at the speed
indicated by its speed symbol at
the maximum inflation pressure.
The higher the number is, the
greater the load carrying capacity.
The letter symbol denotes the
speed at which a tire is designed
to be driven for extended periods
of time. (Ratings are listed below.)*The letters ZR may be used on tires
with a maximum speed capability over
149 mph and will always be used on
tires with a maximum speed capability
over 186 mph.
J. M+S Marking
This marking indicates the tire
has some mud and snow capabili-
ties and is designed for all-season
use.Tire Size
The following illustration shows an
example of a typical passenger car tire
size.
67D028
A. Tire Type
This letter code indicates the pri-
mary intended use of the tire. The
letter “P” identifies a tire primarily
intended for use on a passenger
vehicle.
B. Tire Width
This three-digit number indicates
the tire section width in millime-
ters from sidewall to sidewall.
C. Aspect Ratio
This two-digit number represents
the tire section height divided by
the tire section width. Letter Rating Speed Rating
Q99 mph
R 106 mph
S 112 mph
T 118 mph
U 124 mph
H 130 mph
V 149 mph
W 168 mph*
Y 186 mph*
A
B
C
D
E

7-27INSPECTION AND MAINTENANCE
80J23-03E
NOTE:
The tire inflation pressure will change
due to changes in atmospheric pres-
sure, temperature or tire temperature
when driving. To reduce the chance that
the low tire pressure warning light will
come on due to normal changes in tem-
perature and atmospheric pressure, it is
important to check and adjust the tire
pressures when the tires are cold. Tires
that appear to be at the specified pres-
sure when checked after driving, when
the tires are warm, could have pressure
below the specification when the tires
cool down. Also, tires that are inflated to
the specified pressure in a warm
garage may have pressure below the
specification when the vehicle is driven
outside in very cold temperature. If you
adjust the tire pressure in a garage that
is warmer than the outside tempera-
ture, you should add 1 psi to the recom-
mended cold tire inflation pressure for
every 10°F difference between garage
temperature and outside temperature.Measuring Air Pressure
Use the following steps to achieve
proper tire inflation:
1) Identify the recommended tire pres-
sure on the vehicle’s Tire and Load-
ing Information Label or in the
owner’s manual.
2) Remove the valve cap from the tire
valve stem.
3) Using a reliable pressure gauge,
measure the tire inflation pressure
by pressing the tire gauge firmly
onto the valve to get a pressure
measurement. Remember that
inflation pressures should be
checked when the tires are “cold”,
meaning before they have been
driven one mile or after sitting for
three hours or more allowing the tire
to cool to ambient air temperature.
4) If the air pressure is too high, slowly
release the air by pressing on the
tire valve stem with the edge of the
tire gauge until you reach the cor-
rect pressure.
5) If the air pressure is too low, fill the
tire with air at a service station until
it reaches the recommended pres-
sure.
6) Make sure all tires have the same
air pressure (unless the owner’s
manual indicates otherwise).
WARNING
 Air pressures should be
checked when the tires are cold
or you may get inaccurate read-
ings.
 Check the inflation pressure
from time to time while inflating
the tire gradually, until the spec-
ified pressure is obtained.
 Never underinflate or overin-
flate the tires.
Underinflation can cause
unusual handling characteristics
or can cause the rim to slip on
the tire bead, resulting in an acci-
dent or damage to the tire or rim.
Underinflation can also cause
tires to overheat, leading to tire
failure.
Overinflation can cause the tire
to burst, resulting in personal
injury.
Overinflation can also cause
unusual handling characteristics
which may result in an accident.

7-29INSPECTION AND MAINTENANCE
80J23-03E
Uniform Tire Quality Grading
The U.S. National Highway Traffic
Safety Administration has developed a
grading system for evaluating the per-
formance of passenger car tires. The
following information will help you
understand the grading system, which
applies to vehicles sold in the U.S.
Consult your SUZUKI dealer or tire
retailer for help in choosing the correct
replacement tires for your vehicle.
Quality grades can be found where
applicable on the tire sidewall between
tread shoulder and maximum section
width. For example:
Treadwear 200 Traction AA Tempera-
ture A
DOT Quality Grades
Treadwear
Traction AA A B C
Temperature A B C
All Passenger Car Tires Must Conform
To Federal Safety Requirements in
Addition To These GradesTreadwear
The treadwear grade is a comparative
rating based on the wear rate of the tire
when tested under controlled condi-
tions on a specified government test
course. For example, a tire graded 150
would wear one and one-half (1 1/2)
times as well on the government course
as a tire graded 100. The relative per-
formance of tires depends upon the
actual conditions of their use, however
and may depart significantly from the
norm due to variations in driving habits,
service practices and differences in
road characteristics and climate.
Traction – AA, A, B, C
The traction grades, from highest to
lowest, are AA, A, B and C. Those
grades represent the tire’s ability to
stop on wet pavement as measured
under controlled conditions on speci-
fied government test surfaces of
asphalt and concrete. A tire marked C
may have poor traction performance.
WARNING
Replacing the wheels and tires
equipped on your vehicle with
certain combinations of aftermar-
ket wheels and tires can signifi-
cantly change the steering and
handling characteristics of your
vehicle. Oversized tires may also
rub against the fender over
bumps, causing vehicle damage
or tire failure. Therefore, use only
those wheel and tire combina-
tions approved by SUZUKI Motor
Corporation as standard or
optional equipment for your vehi-
cle. For information regarding the
specified tires, refer to the Tire
Information Label located on the
driver’s side door pillar or the
“SPECIFICATIONS” section.
CAUTION
Replacing the original tires with
tires of a different size may result
in false speedometer or odometer
readings. Check with your
SUZUKI dealer before purchas-
ing replacement tires that differ in
size from the original tires.
WARNING
The traction grade assigned to
this tire is based on straight-
ahead braking traction tests, and
does not include acceleration,
cornering, hydroplaning or peak
traction characteristics.

7-32
INSPECTION AND MAINTENANCE
80J23-03E
Snow Tires
Your vehicle is equipped with all-sea-
son tires which are designed for use in
summer and most winter conditions.
For improved traction in severe winter
conditions, SUZUKI recommends
mounting radial snow tires on all four
wheels. Snow tires must be the same
size as the standard tires. Also be sure
to use the tires of the same type and
brand on all four wheels of your vehi-
cle.GLOSSARY OF TIRE TERMINOL-
OGY
Accessory Weight – the combined
weight (in excess of those standard
items which may be replaced) of CVT,
power steering, power brakes, power
windows, power seats, radio, and
heater, to the extent that these items
are available as factory-installed
equipment (whether installed or not).
Cold Tire Inflation Pressure – the pres-
sure in a tire that has been driven less
than 1 mile or has been standing for
three hours or more.
Curb Weight – the weight of a motor
vehicle with standard equipment
including the maximum capacity of
fuel, oil, and coolant, and, if so
equipped, air conditioning and addi-
tional weight optional engine.
Intended Outboard Sidewall – (1) the
sidewall that contains a whitewall,
bears white lettering or bears manu-
facturer, brand, and/or model name
molding that is higher or deeper than
the same molding on the other side-
wall of the tire, or (2) the outward fac-
ing sidewall of an asymmetrical tire
that has a particular side that must
always face outward when mounted
on a vehicle.Maximum Inflation Pressure – the max-
imum cold inflation pressure a tire is
designed to support in normal service.
Maximum Loaded Vehicle Weight –
the sum of curb weight, accessory
weight, vehicle capacity weight (total
load capacity), and production options
weight.
Normal Occupant Weight – 68 kilo-
grams times the number of occupants
specified in the second column of
Table 1 (shown below).
Occupant distribution – distribution of
occupants in a vehicle as specified in
the third column of Table 1 (shown
below).
Production Options Weight – the com-
bined weight of those installed regular
production options weighing over 2.3
kilograms in excess of those standard
items which they replace, not previ-
ously considered in curb weight or
accessory weight, including heavy
duty brakes, ride levelers, roof rack,
heavy duty battery, and special trim.
Recommended Inflation Pressure –
the cold tire inflation pressure recom-
mended by a manufacturer.
Rim – metal support for a tire or tire
and tube assembly upon which the tire
beads are seated.

7-36
INSPECTION AND MAINTENANCE
80J23-03E
Your vehicle is equipped with a battery that
requires infrequent maintenance. You will
never have to add water. You should, how-
ever, periodically check the battery, battery
terminals and battery hold-down bracket
for corrosion. Remove corrosion using a
stiff brush and ammonia mixed with water,
or baking soda mixed with water. After
removing corrosion, rinse with clean water.
The test indicator on the top of the battery
provides information on the condition of
the battery.
If your vehicle is not going to be driven for
a month or longer, disconnect the cable
from the negative terminal of the battery to
help prevent discharge.
FusesYour vehicle has three types of fuses, as
described below:
Main Fuse – The main fuse takes current
directly from the battery.
Primary Fuses – These fuses are between
the main fuse and individual fuses, and are
for electrical load groups.
Individual Fuses – These fuses are for indi-
vidual electrical circuits.
For details on protected circuits, refer to
the “Fuses and Protected Circuits” section
in this manual.
To remove a fuse, use the fuse puller pro-
vided in the fuse box.
63J095
Fuses in the Engine Compartment
80J051
80J052
WARNING
To avoid harm to yourself or damage
to your vehicle or battery, follow the
jump starting instructions in the
“EMERGENCY SERVICE” section of
this manual if it is necessary to jump
start your vehicle.
WARNING
Battery posts, terminals and related
accessories contain lead and lead
compounds. Wash hands after han-
dling.
(1)
(2) (3)
(28) (27) (26) (25) (6) (7) (9) (11)
(15) (16) (17) (18) (19)
(24)
(8) (4) (5) (10)
(22) (21)
(23)(20)(12) (13) (14)
(30)
(29)

EMERGENCY SERVICE
8
80J23-03E
60G411
EMERGENCY SERVICETire Changing Tool ............................................................. 8-1
Jacking Instructions ........................................................... 8-2
Changing Wheels ................................................................ 8-4
Jump Starting Instructions ................................................ 8-5
Towing a Disabled Vehicle ................................................. 8-6
If the Starter Does Not Operate .......................................... 8-6
If the Engine is Flooded ...................................................... 8-7
If the Engine Overheats ...................................................... 8-7