2013 SKODA SUPERB lights

Fuel consumption, environmental pollution and the wear to the engine, brakes
and tyres depend essentially on the following three factors:
› your personal driving style
› operating conditions
› technical requirements
The fuel economy by can be improved by 10 -15 % by always looking ahead and driving in an economical way.
Fuel consumption is also be influenced by external factors which are beyond the
driver's control. Consumption increases during the winter or under difficult condi-
tions, on poor roads, etc.
Fuel consumption can vary considerably from the manufacturer's data, as a result
of outside temperatures, the weather and driving style.
The optimal engine speed should be obtained when accelerating, in order to
avoid a high fuel consumption and resonance of the vehicle.
CAUTION
All the speed and engine revolution figures apply only when the engine is at its
normal operating temperature.
Looking ahead
First read and observe the introductory information and safety warn-
ings
on page 143.
A vehicle's highest fuel consumption occurs when accelerating, therefore unnec-
essary accelerating and braking should be avoided. If looking ahead when driving, less braking and consequently less accelerating are required.
If possible, let your vehicle coast to a stop, or use the engine brake, if you can see that the next set of traffic lights is on red, for example.

Economical gear changingFig. 126
Principle sketch: Fuel consump-
tion in litres/100 km depending
on the selected gear
First read and observe the introductory information and safety warn- ings on page 143.
Shifting up early saves on fuel.
Manual gearbox › Drive no more than about one length of your vehicle in first gear.
› Shift up into the next gear at approx. 2000 rpm.
An effective way of achieving good fuel economy is to shift up early. Observe the
recommended gear » page 24, Gear recommendation .
A suitably selected gear can have an effect on fuel consumption » Fig. 126.
Automatic gearbox › Slowly
apply the accelerator pedal. However, do not depress ias far as the kick-
down position » page 142.
› An economic driving programme is automatically selected if the accelerator ped-
al is only depressed slowly.

144Driving

Avoiding full throttleFig. 127
Principle sketch: Fuel consump-
tion in litres/100 km. and speed
in km/h.
First read and observe the introductory information and safety warn- ings on page 143.
Driving more slowly saves fuel.
Sensitive use of the accelerator will not only significantly reduce fuel consump-
tion but also positively influence environmental pollution and wear of your vehi-
cle.
The maximum speed of your vehicle should, as far possible, never be used. Fuel
consumption, pollutant emissions and vehicle noises increase disproportionally at
high speeds.
The » Fig. 127 shows the ratio of fuel consumption to the speed of your vehicle.
Fuel consumption will be halved if you drive at only three-quarters of the possible
top speed of your vehicle.

Reducing idling
First read and observe the introductory information and safety warn-
ings
on page 143.
Idling also costs fuel.
In vehicles not equipped with the START-STOP system, turn off the engine when
in a traffic jam, at a level crossing or traffic lights with longer wait times.
Even after just 30 - 40 seconds you will have saved more fuel than that is needed
when you start the engine up again.
If an engine is only idling it takes much longer for it to reach its normal operating
temperature. Wear-and-tear and pollutant emissions, though, are particularly
high in the warming-up phase. Therefore, start driving as soon as the engine has
started, In this case high engine speeds should be avoided.
Avoiding short distances
Fig. 128
Principle sketch: Fuel consump-
tion in l/100 km at different tem-
peratures
First read and observe the introductory information and safety warn- ings on page 143.
Short distances result in an above-average high fuel consumption. We therefore recommend avoiding distances of less than 4 km if the engine is cold.
A cold engine consumes the most fuel immediately after the start. Fuel consump-tion drops to 10 litres/100 km after just 1 kilometre. The consumption stabilises once the engine and catalytic converter have reached their operating tempera-
ture.
An important factor in this connection is also the ambient temperature. The im-
age » Fig. 128 shows the different levels of fuel consumption after driving a cer-
tain distance at a temperature of +20 °C and a temperature of -10 °C.
The vehicle has a higher fuel consumption in winter than in summer.

Checking tyre inflation pressure
First read and observe the introductory information and safety warn-ings
on page 143.
Tyres which are correctly inflated save fuel. 
145Starting-off and Driving

Driving through water on streetsFig. 129
Driving through water
First read and observe the introductory information given on page 147.
The following instructions must be observed if vehicle damage is to be avoided
when driving through water (e.g. flooded roads).
›
Determine the depth of the water before driving through.
The water level must not reach above the bar on the lower beam » Fig. 129.
›
Do not drive any faster than at a walking speed.
At a higher speed, a water wave can form in front of the vehicle, which can cause
water to penetrate into the engine's air induction system or other parts of the ve-
hicle.
›
Never stop in the water, do not reverse and do not switch the engine off.
›
Deactivate the START-STOP system before driving through water » page 159,
START-STOP .
WARNING■
Driving through water, mud, sludge etc. can impair the braking power and
increase the braking distance – risk of accident!■
Avoid abrupt and sudden braking immediately after water crossings.
■
After driving through bodies of water, the brakes must be cleaned and dried
as soon as possible by intermittent braking. Only apply the brakes for the pur-
pose of drying and cleaning the brake discs if the traffic conditions permit this.
Do not place any other road users in jeopardy.
CAUTION■ When driving through water, some parts of the vehicle such as the engine,
gearbox, chassis or electrics can be severely damaged.■
Oncoming vehicles can generate water waves which can exceed the permissible
water level for your vehicle.
■
Potholes, mud or rocks can be hidden under the water making it difficult or im-
possible to drive through the body of water.
■
Do not drive through salt water. The salt can lead to corrosion. Any vehicle parts
that have come into contact with salt water must be rinsed immediately with
fresh water.
Note
After driving through water, we recommend having the vehicle checked by a spe-
cialist garage.
Driving abroad
 Introduction
This chapter contains information on the following subjects:
Unleaded petrol
148
Headlights
149
In certain countries, it may be possible that the ŠKODA Partner network is limited
or has not been established. This is the reason why procuring certain spare parts
may be somewhat complicated and specialist garages may only be able to make
limited repairs.

Unleaded petrol
First read and observe the introductory information given on page 148.
A vehicle fitted with a petrol engine must always be refuelled with unleaded pet-
rol » page 205 , Unleaded petrol . Information regarding the locations of filling sta-
tions that offer unleaded petrol is, for example, provided by the automobile asso-
ciations.

148Driving

HeadlightsFirst read and observe the introductory information given on page 148.
The low beam of your headlights is set asymmetrically. It illuminates the side of
the road on which the vehicle is being driven to a greater extent.
When driving in countries in which the traffic drives on the other side of the roadthan in your home country, the asymmetrical low beam may dazzle oncoming
drivers. In order to avoid this, the headlights must be adjusted at a specialist ga-
rage.
Headlights with Xenon lights can be adjusted in the menu of the MAXI DOT dis-
play » page 54 .
Note
You can find out more information on adjusting the headlights at a specialist ga-
rage.
149Starting-off and Driving

Assist systems
Brake assist systems
Introduction
This chapter contains information on the following subjects:
Electronic Stability Control (ESC)
150
Antilock Braking System (ABS)
151
Traction Control System (TCS)
151
Electronic Differential Lock (EDL)
151
Driver Steering Recommendation (DSR)
151
Hydraulic Brake Assist (HBA)
151
Hill Hold Control (HHC)
152WARNING■ A lack of fuel can cause irregular engine running or cause the engine to shut
down. The brake assist systems would then fail to function – risk of accident!■
Adjust the speed and driving style to the current visibility, weather, road and
traffic conditions. The increased safety provided by the brake assist systems
must not tempt you to take safety risks – risk of accident!
■
In the event of an ABS fault, visit a specialist garage immediately. Adjust
your style of driving according to the damage to the ABS, as you will not know
the exact extent of the damage or the extent to which this is limiting the
braking efficiency.
CAUTION
■ All four wheels must be fitted with the same tyres approved by the manufactur-
er to ensure the brake assist systems operate correctly.■
Changes to the vehicle (e.g. to the engine, brakes, chassis) can influence the
functionality of the brake assist systems » page 193, Services, modifications, and
technical alterations .
■
If a fault occurs in the ABS system, the ESC, ASR and EDL will also not work. An
ABS fault is indicated by the warning light  » page 19 .

Electronic Stability Control (ESC)Fig. 130
ESC system: TCS button
First read and observe the introductory information and safety warn-
ings on page 150.
The ESC system helps improve control of the vehicle in situations where it is be-
ing operated at its dynamic limits, such as a sudden change to the direction of
travel. Depending on the conditions of the road surface, the risk of skidding is re-
duced, thereby improving the vehicle's driving stability .
The ESC system is automatically activated each time the ignition is switched on.The direction which the driver wishes to take is determined based on the steering angle and the speed of the vehicle and is constantly compared with the actualbehaviour of the vehicle. In the event of deviations, such as the car beginning to
skid, the ESC system will automatically brake the appropriate wheel.
During an intervention of the system, the indicator light 
flashes in the instru-
ment cluster.
The following systems are integrated into the Electronic Stability Control (ESC).
› Antilock Brake System (ABS)
» page 151.
› Traction control (ASR)
» page 151.
› Electronic Differential Lock (EDL)
» page 151.
› Driver Steering Recommendation (DSR)
» page 151.
› Hydraulic Brake Assist (HBA)
» page 151.
› Hill Hold Control (HHC)
» page 152.
› Trailer stabilisation (TSA)
» page 162, Towing a trailer .
The ESC system cannot be deactivated. The 
» Fig. 130 symbol button can only
be used to deactivate the ASR.
The warning light  lights up in the instrument cluster when the ASR is deactiva-
ted.

150Driving

Antilock Braking System (ABS)First read and observe the introductory information and safety warn-
ings
on page 150.
ABS prevents the wheels locking when braking. Thus helping the driver to main-
tain control of the vehicle.
The intervention of the ABS is noticeable from the pulsating movements of the
brake pedal which is accompanied by noises.
When the ABS system is active, do not brake periodically or reduce the pressure
on the brake pedal.

Traction Control System (TCS)
Fig. 131
TCS button
First read and observe the introductory information and safety warn- ings on page 150.
If the wheels are slipping, the TCS adapts the engine speed to the conditions of
the road surface. The TCS makes it much easier to start off, accelerate and climb
steep hills even if the conditions of the road surface are unfavourable.
The TCS function is activated automatically each time the ignition is switched on.
If your vehicle is fitted with the ESC system, the ASR is integrated into the ESC
system » page 150 .
During an intervention of the system, the TCS indicator light  flashes in the in-
strument cluster.
The TCS should normally always be enabled. The system should be deactivated
only in the following situations, for example.
› When driving with snow chains.
› When driving in deep snow or on a very loose surface.
› When “rocking a car free” when it has become stuck.
The ASR can be deactivated via the symbol button » Fig. 131
.
The warning light  lights up in the instrument cluster when the ASR is deactiva-
ted.
Ensure the TCS is activated again afterwards.
Electronic Differential Lock (EDL)
First read and observe the introductory information and safety warn-
ings
on page 150.
If one of the wheels starts to spin, the EDL system brakes the spinning wheel and transfers the driving force to the other wheels. This ensures the stability of the
vehicle and a quick journey.
The EDL switches off automatically in order to avoid excessive heat generation in
the disc brake of the wheel being braked. The vehicle can continue to be driven
and has the same characteristics as a vehicle not fitted with EDL. The EDL switches on again automatically as soon as the brake has cooled down.

Driver Steering Recommendation (DSR)
First read and observe the introductory information and safety warn-ings
on page 150.
In critical situations, the DSR provides the driver with a steering recommendation in order to stabilise the vehicle. The DSR is activated, for example, on the right
and left vehicle side when braking sharply on different road surfaces.

Hydraulic Brake Assist (HBA)
First read and observe the introductory information and safety warn-ings
on page 150.
The HBA increases the braking effect and helps to reduce the braking distance. 
151Assist systems

FunctionFig. 132
Range of sensors / system button
First read and observe the introductory information and safety warn- ings
on page 152.
The parking aid (hereafter referred to solely as system) only works when the igni- tion is switched on.
The system supports the driver via audible signals, via the display on the radio or via the factory-installed navigation system when parking and manoeuvring » Ra-
dio user guide, Navigation system user guide.
The system uses ultrasound waves to calculate the distance between the bumper
and an obstacle. The ultrasound sensors are located on the front/rear bumper.
Explanation of graphic - range of sensors in the vicinity of the vehicle
Area » Fig. 132Range of sensors a)A120 cmB60 cmC160 cmD60 cmEb)60 cma)
These are only the approximate ranges of sensors.
b)
Applies only for vehicles with 12 sensors.
The interval between the acoustic signals becomes shorter as the clearance is re-
duced. A continuous tone sounds from a distance of approx. 30 cm - danger area.
From this moment on do not continue driving!
The length of the vehicle can be increased with an installed detachable towing device. The danger area thus begins at a distance of around 35 cm on vehicles
equipped with a factory-fitted towing device.
Towing a trailer
On vehicles equipped with a factory-fitted towing device, only system areas A
and
B
» Fig. 132 are active when towing a trailer.

Activation/deactivation
First read and observe the introductory information and safety warn-
ings
on page 152.
The system is automatically activated by selecting reverse gear or pressing the
 » Fig. 132 on page 153 symbol button. The symbol 
lights up in the button;
activation is confirmed by a brief acoustic signal.
The system is deactivated by moving out of reverse gear or by pressing the 
symbol button, or is deactivated automatically at a speed of over 10 km/h (the 
symbol in the button goes out).
On vehicles which only have rear sensors , the system can only be deactivated by
moving out of reverse gear.

Park assist
 Introduction
This chapter contains information on the following subjects:
Finding a parking space
154
Parking
155
Manoeuvring out of a parallel parking space
156
Automatic brake assist
156
Information messages
156
The parking aid is part of the park assist system, therefore the information and
safety guidelines » page 152, Parking aid must be read and observed.
Park Assist (in the following referred to as the system) helps drivers park in suita- ble parallel and perpendicular parking places and also to manoeuvre out of paral-lel parking spaces. 
153Assist systems

The system only operates if the ignition is switched on.The displays, messages and system instructions are displayed in the MAXI DOTdisplay (in the display only below).
During the parking procedure the system only takes over the steering move-
ments, the pedals continue to be operated by the driver.
When the system is activated, the warning light  lights up
» Fig. 133 on
page 154 - .
The traction control system (TCS) must always be switched on when parking.
Basis of the system function
› The measurement and evaluation of the size of parking spaces when driving.
› The determination of the correct position of the vehicle for parking.
› The calculation of the line on which the vehicle drives backwards into the park-
ing space or forwards from the parking space.
› the automatic turning of the front wheels when parking in, or manoeuvring out
of the parking space.WARNING■ The system does not exempt the driver from his/her responsibility for park-
ing in and manoeuvring out of the parking space.■
External sound sources can have a detrimental effect on parking in and ma-
noeuvring out of the parking space. Under adverse conditions, this may cause
objects or people to not be recognised by the system.
■
When parking in, and manoeuvring out of parking spaces, the system auto-
matically executes quick steering movements. While it is doing so, do not place your hands between the steering wheel – risk of injury!
■
When parking or departing from a parking space on loose or slippery surfa-
ces (gravel, snow, ice etc.), there may be deviations due to the conditions of
the calculated road surface. We therefore recommend not using the system in
such situations.
CAUTION
■ If other vehicles are parked behind or on the kerb, the system can guide your
vehicle beyond the kerb or onto it. Ensure that the wheels or the wheel rims of
your vehicle are not damaged and if necessary intervene in time.■
Under certain circumstances, the surfaces or structures of certain objects such
as wire mesh fences or powder snow cannot be detected by the system.
■ The evaluation of the parking space and the parking procedure depend on the
circumference of the wheels. The system only works correctly if the vehicle is fit- ted with the wheel size approved by the manufacturer.■
If wheels other than those approved by the manufacturer are mounted, the re-
sulting position of the vehicle in the parking space can differ slightly. This can be
avoided by readjusting the system at a specialist garage.
■
Under certain circumstances, the system may not function correctly, for exam-
ple, if the vehicle is fitted with snow chains or a temporary spare wheel.

Finding a parking space
Fig. 133
System button / display
First read and observe the introductory information and safety warn- ings
on page 153.
The search for a suitable parking space takes place while the display is switchedoff. If the display is not switched on using the  symbol button until the driver
drives past the parking space, the system can assess and display this parking
space.
Finding a parallel parking space
›
Drive past the parking space at up to 40 km/h and a distance of 0.5 – 1.5 m.
›
Press the 
» Fig. 133 symbol button once.
The display shows » Fig. 133 - 
.
Finding a perpendicular parking space
›
Drive past the parking space at up to 20 km/h and a distance of 0.5 – 1.5 m.
›
Press the 
» Fig. 133 symbol button twice.
The display shows » Fig. 133 - 
. 
154Driving