2011 SKODA YETI tow

Seat belts
Why seat belts? Fig. 116 Driver wearing seat belt
It is a proven fact that seat belts offer good protection in accidents ⇒ fig. 116 . Thus
wearing a seat belt is a legal requirement in most countries.
Seat belts which have been correctly fastened and adjusted hold the occupants of
the car in the correct seated position ⇒ fig. 116 . The seat belts reduce the kinetic
energy (energy of motion) to a considerable extent. They also prevent uncontrol-
led movements which, in turn, may well result in severe injuries.
The occupants of a vehicle who have fastened and correctly adjusted their seat
belt, profit to a major extent from the fact that the kinetic energy is optimally ab-
sorbed by the belts. The structure of the front end of the vehicle and other pas-
sive safety measures, such as the airbag system, also contribute to reducing the
kinetic energy. The energy produced is thus absorbed and there is less risk of in-
jury.
Accident statistics prove that seat belts which are fastened and properly adjusted
reduce the risk of an injury and enhance the chance of survival in a major accident
⇒  page 132.
It is important that you pay attention to safety measures, particularly when trans-
porting children in the vehicle ⇒
 page 146, What you should know about trans-
porting children!. WARNING
● Fasten your seat belt each time before setting off - also when driving in
town! This also applies to the people seated at the rear - risk of injury!
● Expectant women must also always wear a seat belt. This is the only way
of ensuring optimal protection for the unborn child ⇒ page 134, How are seat
belts correctly fastened?

.
● It is important for the belt webbing to be properly routed if the seat belts
are to offer the maximum protection. You can see a description of how safety
belts should be fitted properly on the next pages. Note
Please comply with any differing legal requirements when using the seat belts. 
The physical principle of a frontal collision Fig. 117 The driver is catapulted forward if not wearing a belt/The rear seat occupant is cata-
pulted forward if not wearing a belt
The physical principle of a frontal accident can be explained quite simply:
Motion energy, so-called kinetic energy, is produced as soon as the vehicle is mov-
ing, both for the vehicle and its occupants. The magnitude of this kinetic energy
depends essentially on the speed at which the vehicle is travelling and on the
weight of the vehicle including the occupants. The greater the speed and weight
increase, the greater the amount of energy which has to be absorbed in the event
of an accident. £132
Seat belts

Children who are more than 1.50 m in height or who weigh more than 36 kg can
use normal seat belts without a seat bolster. 
Use of child safety seats An overview of the usefulness of child seats on each of the seats according to the
ECE-R 44 standard: Child seat
of the group Front passenger
seat Rear seat
outside Rear seat
middle 0 U

+ U

+
T U
0+ U

+ U

+
T U
1 U

+ U

+
T U
2 and 3 U U U
Universal category - seat is suitable for all approved types of child safety
seats.
The seat can be fitted with fixing eyes for the

“ISOFIX ”system.
The divided rear seat - seat can be fitted with fixing eyes for the system “ Top
Tether” ⇒ page 152, Attaching child seat using the “Top Tether” system. 
Child seats of group 0/0+ Fig. 131 Child seats of group 0/0+
The optimal solution for babies of up to about 9 months old weighing up to 10 kg
or children up to about 18 months old weighing up to 13 kg is a child safety seat
which is fastened in the opposite direction of travel ⇒

 fig. 131.
U +
T Child seats in which the child is facing with its back towards the direction of
travel should not be used on the front passenger seat when the vehicle is fitted
with a front passenger airbag
⇒

 page 147, Use of child safety seats on the front
passenger seat. WARNING
● It is essential to always switch off the front passenger front airbag at a
specialist garage or with the switch for front passenger airbag when attaching
in exceptional circumstances a child safety seat on the front passenger seat
where the child is seated with its back facing in direction of travel ⇒

 page 145,
Switch for the front passenger front airbag.
● Please comply with any differing national legal regulations regarding the
use of child safety seats.
● If this is not done, a child seated on the front passenger seat may suffer
severe or even fatal injuries if the front passenger airbag or airbags are de-
ployed.
● You should have the front passenger airbag (or airbags) reactivated just as
soon as you no longer use a child safety seat on the front passenger seat. 
Child safety seats in Group 1 Fig. 132 Child seat with padded table in
Group 1 installed on rear seat bench fac-
ing the direction of travel
Child seats in Group 1 are for babies and small children up to 4 years of age with a
weight of between 9 and 18 kilograms. It is best for children in the lower range of
this group, to use a child seat which allows the child to sit with its back to the di-
rection of travel. It is best for children in the upper range of the Group 0+, to use a
child seat which allows the child to sit ⇒ fig. 132 in the direction of travel. £ 149
Transporting children safely Using the system Safety Driving Tips General Maintenance Breakdown assistance Technical data

Child seats in which the child is facing with its back towards the direction of
travel should not be used on the front passenger seat when the vehicle is fitted
with a front passenger airbag
⇒
 page 147, Use of child safety seats on the front
passenger seat. WARNING
● It is essential to always switch off the front passenger front airbag at a
specialist garage or with the switch for front passenger airbag when attaching
in exceptional circumstances a child safety seat on the front passenger seat
where the child is seated with its back facing in direction of travel ⇒

 page 145,
Switch for the front passenger front airbag.
● Please comply with any differing national legal regulations regarding the
use of child safety seats.
● If this is not done, a child seated on the front passenger seat may suffer
severe or even fatal injuries if the front passenger airbag or airbags are de-
ployed.
● You should have the front passenger airbag (or airbags) reactivated just as
soon as you no longer use a child safety seat on the front passenger seat. 
Child safety seats in Group 2 Fig. 133 Child seat in Group 2 installed
on the rear seat facing the direction of
travel
For children up to about 7 years of age weighing between 15 and 25 kg the opti-
mal solution is a child safety seat in combination with the three-point seat belt
⇒  fig. 133. WARNING
● When transporting a child on the front passenger seat, please comply with
the appropriate national regulations regarding the use of child safety seats.
Switch off the front passenger airbag if necessary at a specialist garage or
switch it off with the switch for front passenger airbag ⇒

 page 145, Switch for
the front passenger front airbag.
● The shoulder part of the seat belt must run approximately across the mid-
dle of the shoulder and fit snugly against the chest. It must on no account run
across the neck. The lap part of the seat belt must run across the pelvis and
fits snugly; it must not run over the belly. Tighten the belt webbing over your
hip if necessary.
● Please comply with any differing national legal regulations regarding the
use of child safety seats. 
Child safety seats in Group 3 Fig. 134 Child seat in Group 3 installed
on the rear seat facing the direction of
travel
For children of about 7 years of age weighing between 22 and 36 kg and of a
height of less than 150
cm, the optimal solution is a child safety seat (seat bolster)
in combination with the three-point seat belt ⇒ fig. 134 . £150
Transporting children safely

Operating principle
The TCS switches on automatically when the engine is started and then conducts
a self-test. The system monitors the speeds of the driven wheels with the aid of
the ABS sensors. If the wheels are spinning, the force transmitted to the road sur-
face is automatically adapted by reducing the engine speed. The system operates
at all speeds.
The TCS operates in combination with the ABS ⇒ page 157,
Antilock brake system
(ABS). The TCS will not function if a fault exists in the ABS system.
The TCS warning light lights up in the instrument cluster when there is a fault on
the TCS  ⇒ page 27.
During an intervention of the system, the TCS warning light flashes  in the in-
strument cluster ⇒ page 27.
Switching off
You can also switch off the TCS system by pressing the ⇒ fig. 138 button, or, in ve-
hicles with ESP, by pressing the ⇒ fig. 137 button. The TCS warning light lights up
in the instrument cluster when the TCS is switched off .
The TCS should normally always be switched on. It may be good practice in certain
exceptional cases, such as when you wish to have wheel slip, to switch off the
system.
Examples:
● when driving with snow chains,
● when driving in deep snow or on a loose surface,
● when it is necessary to rock a car free when it has become stuck.
then you should switch on the TCS again.
TCS Off-road
After switching on the Off-road mode ⇒ page 160

, TCS Off-road is activated.
TCS Off-road provides a more effective acceleration of the vehicle on an unfirm
ground, as it allows higher traction between the slipping wheels and the ground.
The system operates when starting off or at low speeds. WARNING
You should always adjust your style of driving to the conditions of the road
surface and the traffic situation. The increased safety offered must not tempt
you to take greater risks than otherwise - risk of an accident! Note
● All four wheels must be fitted with the same tyres in order to achieve prob-
lem-free operation of the TCS. Differing rolling circumferences of the tyres can
lead to an undesirable reduction in the engine output.
● Changes to vehicle (e.g. on engine, on the brakes, on chassis or another combi-
nation of tyres and wheels) can influence the function of the TCS ⇒

 page 207, Ac-
cessories, changes and replacement of parts. 
Active driver-steering recommendation (DSR) This function indicates to the driver in critical situations a steering recommenda-
tion in order to stabilise the vehicle. The active driver-steering recommendation is
activated, for example, on the right and left vehicle side when braking sharply on
different road surfaces. WARNING
Even with this function the vehicle cannot steer itself! The driver is further-
more responsible for the steering of the vehicle! 
Brakes What has a negative effect on braking efficiency?
Wear-and-tear
Wear-and-tear to the brake pads is greatly dependent on the operating conditions
of the vehicle and your style of driving. Particularly if you drive a great deal in
towns and over short distances or if you adopt a sporty style of driving, it may be
necessary to have the thickness of the brake pads inspected at a specialist garage
between the service inspections.
Wet roads or road salt
There may be a certain delay before the brakes take full effect under certain con-
ditions such as when driving through water, during heavy rain showers or after
the vehicle has been washed in an automatic vehicle wash, since the brake discs
and brake pads may be moist or even have a coating of ice on them in winter. You
should dry the brakes as soon as possible by applying and releasing the brakes
several times. £ 155
Intelligent technology Using the system Safety Driving Tips General Maintenance Breakdown assistance Technical data

The Brake Assist is able to help you achieve a shorter braking distance in emer-
gency situations by rapidly producing the pressure required in the brake system. It
fully exploits the attributes of the ABS. After you release the brake pedal, the
function of the Brake Assist is automatically switched off and the brakes operate
in the normal way.
The Brake Assist is part of the ESP system. If a fault occurs in the ESP, the Brake
Assist function is also not available. Further information on the ESP
⇒ page 153.WARNING
● The Brake Assist is also not able to overcome the physical limits of your car
in terms of the braking distance required.
● Adapt your speed to the conditions of the road surface and to the traffic
situation.
● The increased safety offered by the Brake Assist must not tempt you to
take a greater safety risk than otherwise. 
Uphill Start Assist The uphill start assist makes it easier to start off on steep hills. The system assists
a start off by holding the brake pressure produced by the brake pedal actuation
for approx. 2 seconds after releasing the brake pedal. The driver can therefore
move his foot from the brake pedal to the accelerator pedal and start off on the
slope, without having to actuate the handbrake. The brake pressure drops gradu-
ally the more you operate the accelerator pedal. If the vehicle does not start off
within 2 seconds, it starts to roll back.
The uphill start assist is active as of a 3 % slope, if the driver door is closed. It is
always active on slopes when in forward or reverse start off. When driving down-
hill, it is inactive. 
Electromechanical power steering The power steering enables you to steer the vehicle with less physical force.
With the electromechanical power steering, the steering assist is automatically
adapted to the speed and to the steering angle.
It is still possible to fully steer the vehicle if the power steering fails or if the en-
gine is not running (vehicle being towed in). The only difference is that greater
physical effort is required. If there is a fault in the power steering, the warning light
 or  lights up in the
instrument cluster ⇒
 page 25. WARNING
Contact your specialist garage if the power steering is defective. 
Tyre pressure monitoring system Fig. 139 Button for setting the tyre in-
flation pressure control value
The tyre pressure monitoring system compares with the aid of the ABS sensors
the speed and also the rolling circumference of the individual wheels. If the rolling
circumference of a wheel is changed, the warning light
 in the instrument clus-
ter ⇒ page 28 and an acoustic signal sounds.
The rolling circumference of the tyre can change if:
● the tyre inflation pressure is too low,
● the structure of the tyre is damaged,
● the vehicle is loaded on one side,
● the wheels of an axle are loaded heavily (e.g. when towing a trailer or when
driving uphill or downhill),
● snow chains are mounted,
● the temporary spare wheel is mounted,
● one wheel per axle was changed. £158
Intelligent technology

Driving and the environment
The first 1 500 kilometres and then afterwards
New engine The engine has to be run in during the first 1 500 kilometres.
Up to 1 000 kilometres
– Do not drive faster than 3/4 of the maximum speed of the gear in use, that is
3/4 of the maximum permissible engine speed.
– Do not use full throttle.
– Avoid high engine revolutions.
– Do not tow a trailer.
From 1 000 up to 1 500 kilometres
– Increase the power output of the engine gradually up to the full speed of the
gear engaged, that is up to the maximum permissible engine revolutions.
During the first operating hours the engine has higher internal friction than later
until all of the moving parts have harmonized. The driving style which you adopt
during the first approx.1 500 kilometres plays a decisive part in the success of run-
ning in your car.
You should not drive at unnecessarily high engine revolutions even after the run-
ning-in period is complete. The maximum permissible engine speed is marked by
the beginning of the red zone on the scale of the revolutions counter. Shift up in-
to the next higher gear on a vehicle fitted with manual gearbox before the red
zone is reached. During acceleration (depressing the accelerator) exceptionally
high engine speeds are automatically reduced, yet the engine is not protected
against too high engine speeds which are caused by incorrectly shifting down the
gears resulting in a sudden increase of the engine speeds above the permitted
maximum revolutions which can lead to engine damage.
For a vehicle fitted with a manual gearbox the converse situation also applies: Do
not drive at engine revolutions which are too low. Shift down as soon as the en-
gine is no longer running smoothly. CAUTION
All the speed and engine revolution figures apply only when the engine is at its
normal operating temperature. Never rev up an engine which is cold, neither when
the vehicle is stationary nor when driving in individual gears. For the sake of the environment
Not driving at unnecessarily high engine revolutions and shifting to a higher gear
as early as possible are ways to minimise fuel consumption and operating noise
levels and protects the environment. 
New tyres New tyres have to be “run in” since they do not offer optimal grip at first. You
should take account of this fact for the first 500 kilometres and drive particularly
carefully. 
New brake pads Allow for the fact that new brake pads do not achieve their full braking efficiency
until approximately 200 kilometres. New brake pads must be first “run in” before
they develop their optimal friction force. You can, however, compensate for this
slightly reduced braking force by increasing the pressure on the brake pedal.
This guideline also applies to any new brake pads installed at a future date.
During the running-in period, you should avoid excessive stresses on the brakes.
This includes, for example, violent braking, particularly from very high speeds, and
also when crossing mountain passes. 
Catalytic converter Proper operation of the emission control system (catalytic convert-
er) is of major significance for driving your vehicle in an environ-
mentally conscious way.
Please refer to the following guidelines: £162
Driving and the environment

–
For vehicles with petrol engine only refuel with unleaded petrol ⇒  page 186,
Fuel.
– Never run the fuel tank completely empty.
– Do not switch off the ignition while you are driving the vehicle.
– Do not pour too much oil into the engine ⇒
 page 192, Replenishing engine oil.
If you drive your vehicle in a country in which unleaded petrol is not available, you
must have the catalytic converter replaced later when driving the vehicle into a
country in which use of a catalytic converter is mandatory. WARNING
● In view of the high temperatures which may be produced in the catalytic
converter, one should always park a vehicle in such a way that the catalytic
converter cannot come into contact with easily flammable materials below the
vehicle - a risk of fire!
● Never use additional underbody protection or corrosion-protection agents
for the exhaust pipes, catalytic converters or heat shields. Such substances
might ignite when driving - risk of fire! CAUTION
● On vehicles fitted with a catalytic converter, never let the fuel tank run com-
pletely empty. An irregular fuel supply can result in poor ignition or misfiring. Un-
burnt fuel may get into the exhaust system and damage the catalytic converter.
● Filling the tank even only once with leaded petrol will result in the catalytic
converter being destroyed.
● If you detect misfiring, a drop in performance or irregular engine running when
driving, reduce your speed immediately and have the vehicle inspected by the
nearest specialist garage. The symptoms described may be caused by a fault in
the ignition system. Unburnt fuel may get into the exhaust system and damage
the catalytic converter. For the sake of the environment
Even if the exhaust system is operating properly, a sulphur-like exhaust odour
may be produced under certain operating conditions of the engine. This depends
on the sulphur content of the fuel. It is often sufficient to refuel with unleaded
premium-grade petrol of a different brand or at a different filling station. Driving in an economical and environmentally
conscious manner
General Your personal style of driving is a major factor.
Your fuel consumption, any pollution of the environmental and the wear-and-tear
to the engine, brakes and tyres, depend essentially on three factors:
● your personal style of driving,
● the conditions under which your vehicle is operated,
● technical aspects.
You can easily improve your fuel economy by 10 - 15 percent by driving in an eco-
nomical way with foresight. This section is intended to provide you with a number
of tips on how to protect the environment and at the same time save money.
The fuel consumption can naturally also be influenced by factors which are be-
yond the driver's control. It is, for example, normal for the fuel consumption to in-
crease in winter and under worsened conditions such as poor road conditions,
towing a trailer, etc.
The technical requirements for low fuel usage and economic efficiency of the ve-
hicle have already been built into the vehicle at the works. Special attention has
been given to minimising negative effects on the environment. It is necessary to
take note of the guidelines given in this chapter in order to make best use of
these characteristics and to maintain their effectiveness.
The optimal engine speed should be obtained when accelerating, in order to avoid
a high fuel consumption and resonance of the vehicle. 
Looking ahead when driving A vehicle's highest fuel consumption occurs it accelerates.
Avoid accelerating and braking unnecessarily. If you drive with foresight you will
not need to brake so often and will also then not have to accelerate so much. Let
your vehicle coast to a stop, for example, if this is possible, when you see that the
next set of traffic lights is at red.  163
Driving and the environment Using the system Safety Driving Tips General Maintenance Breakdown assistance Technical data

Do not drive with winter tyres all year round for this costs about 10 % more fuel.
Winter tyres are also louder.

No unnecessary ballast Transporting ballast costs fuel.
The fact that every kilogram of extra weight increases your fuel consumption
means that it is worth taking a look in the luggage compartment to avoid trans-
porting any unnecessary ballast.
It is particularly in town traffic, when one is accelerating quite often, that the vehi-
cle weight will have a significant effect upon the fuel consumption. A rule of
thumb here is that an increase in weight of 100 kilograms will cause an increase in
fuel consumption of about 1 litre/100 kilometres.
You may frequently also leave a roof rack fitted on just out of convenience, al-
though you no longer need it. The increased aerodynamic drag of your vehicle
causes it to use about 10 % more fuel than normal at a speed of 100 - 120 km/h,
even when you are not carrying a load on the roof. 
Saving electricity Generating electricity costs fuel.
– Switch off electrical components as soon as you no longer need them.
When the engine is running, the alternator generates and supplies electrical pow-
er. If more electrical components of the electrical system are switched on, more
fuel is needed to operate the alternator. 
Keeping a log of your fuel consumption If you really wish to keep a close check on your
fuel consumption, it is best to en-
ter the figures in a logbook. This does not take much time but is a very worthwhile
exercise. It enables you to detect any change (positive and negative) at an early
stage and to take any appropriate action.
If you find that your fuel consumption is too high, you should reflect on how,
where and in what conditions you have driven the vehicle since you last refuelled. Environmental compatibility Environmental protection has played a major role in the design, selection of mate-
rials and manufacture of your new ŠKODA. Particular emphasis has been paid to a
number of aspects, including:
Design measures
● Joints designed to be easily detached.
● Simplified disassembly due to the modular structure system.
● Improved purity of different classes of materials.
● Identification of all plastic parts in accordance with VDA Recommendation 260.
● Reduced fuel consumption and exhaust emission CO
2.
● Minimum fuel leakage during accidents.
● Reduced noise.
Choice of materials
● Extensive use of recyclable material.
● Air conditioning filled with CFC-free refrigerant.
● No cadmium.
● No asbestos.
● Reduction in the “vaporisation” of plastics.
Manufacture
● Solvent-free cavity protection.
● Solvent-free protection of the vehicle for transportation from the production
plant to the customer.
● The use of solvent-free adhesives.
● No CFCs used in the production process.
● Without use of mercury.
● Use of water-soluble paints.
Trade-in and recycling of old cars
ŠKODA meets the requirements of the brand and its products regarding environ-
ment and resource protection. All new

ŠKODA vehicles can be utilized up to 95 %
and always 1)
be returned. In a lot of countries sufficient trade-in networks have £1)
Subject to fulfilment of the national legal requirements. 166
Driving and the environment